BLDG 3200 Fall 2024 Lecture Notes - British Columbia Institute of Technology

Summary

These lecture notes cover BLDG 3200, Building Construction 3, at the British Columbia Institute of Technology for Fall 2024. The course introduces building technology, relevant definitions, working drawings, and building code applications. The notes also outline course expectations, assessments, and available resources.

Full Transcript

1

Building Construction 3
BLDG 3200

2024 September 5

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Announcements
Part Time Day Students:
As you are aware, you do not have access to the Learning Hub.
Most of this course is managed using the Learning Hub so to
accommodate you until you have access, please note the
following:
 Printed lecture notes will be available for presentations. Check for
them at the front of the class.
 You must attend labs this week to complete the assignment.
The assignment will be completed on paper sheets to be handed in
the following week. This submission requirement will apply to
everyone.
 I only have a master list of names for who is enrolled as PTD. I do
not have a list of who is enrolled in this course. See me in the labs
to add your name to the class list.
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Agenda: Week 1
Course introduction
 Instructors, description, outcomes, resources, expectations, schedule
Intro to course scope and building technology relevant to 3200/
4200:
 Definitions and disciplines
 Process

Working drawings

Ching text reading:
 Not much relative to Week 1 topics but review Appendix items A.08 (metric
conversions), A.18 and refresh your memory on the MasterFormat®
Systems in A.19 onwards (I’ll be expecting you to apply MF and it will
come up in specs and other courses)

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Welcome to BLDG 3200
Instructor: Brent Argo, Architect AIBC
NE1 Rm. 332M, 604-456-1040
[email protected]

Office Hours: Monday and Tuesday 11:30- 1:00
Those are ‘generally’ my hours. They will
vary. Revised and additional hours may be
added, you will be notified by Learning Hub
News

Assistant Instructor: Thomas Jang, Architect AIBC
NE1 Rm. 332R, 604-456-1037
[email protected]
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BLDG 3200 – The Basics
 This is a big course:
 6 credits
 2 hour lecture
 4 hour lab
 Why so much time?
 Working drawings/ construction assembly course
 BCBC Part 3 buildings
 Often large building, more complex, wide variety of materials and
assemblies.
 BLDG 4200 similar- it’s a continuation

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Course Description
On-line Course Outline
 This course examines and focusses on typical non-
combustible building construction systems and assemblies
including steel, concrete, precast concrete and tilt-up concrete.
The course will also expand on the applications of finishes
and envelope components such as roofing, windows, and
interior finishes. All of the above noted will be viewed primarily
within the context of Part 3 of the building code with specific
focus on non-combustible construction.
 There is an emphasis on the particular technical and
procedural concerns in the development of working drawings
in the context of construction contract documents.
 We have a field trip planned to give you a look into the real
world of complex project management and construction.

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Course Learning
Outcomes/Competencies
 Upon successful completion, the student will be able to:
1. Demonstrate ability to draw construction documents whilst applying building codes,
standardized graphics and software applications (ACAD) introduced in other
courses.
2. Students shall define problems and develop solutions for building construction
details.
3. Produce working drawings for larger non-combustible building construction systems
and assemblies including concrete, precast and tilt-up concrete, steel, roofing,
windows, partitions and ceiling systems.
4. Apply particular technical and procedural methods in the production of detailed
working drawings in the context of contract documentation for construction.
5. Work effectively on projects that require teamwork, personal initiative, self-
confidence and problem-solving ability.
 But… both 3200 and 4200 really only develop a foundation of
knowledge that you will build on when you start working.
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Required Textbook:
Building Construction
Illustrated

6th edition by Francis D.K. Ching,
John Wiley & Sons, 2019

(5th and 4th edition are fine)

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Additional Resources and
References:
 BC Building Code, current edition (using Part 3). 2024 BCBC will
be ‘current’ this term. New code this March.

 Architectural Graphic Standards, Ramsey & Sleeper, 12th edition
current (but any copy is useful, student or complete), Wiley and Sons, 2016

 Fundamentals of Building Construction Materials and Methods,
5th edition (but any copy is useful) by Edward Allen & Joseph Iano (text
from BLDG 1050/ 2050)

 Architect’s Studio Companion, Edward Allen & Joseph Iano, 5th
edition (but any copy is useful), John Wiley & Sons, 2017

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Learning Resources
Required:
This course makes use of the course handout material,
drawings/details, site visits, videos and photographs to teach the
subject material. There is a mandatory text. The following materials
are required:

1. A computer with ACAD and REVIT and whatever other
software and peripherals you need

2. Manual drawing tools (mechanical pencils/ scales/ruler etc.)
for in-class drawing exercises. (use for labs)

3. Safety clothing (PPE): CSA approved Safety footwear (over-
the-ankle, green triangle), hardhat, hi-vis vest, and
safety glasses for construction site visits and plant tours.

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Evaluation
 Lab-work and assignments 55%
 Exams 45%
 TOTAL 100%

 EXAMS
 Midterm (Covers weeks 1-6) 20%
 Final (Covers weeks 7-14) 25%

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Evaluation- Lab Assignments
This term’s mark breakdown is as follows:

 Drawing Review  2%
 Practice Drawing Project  7%
 Activities (attendance)  5%

 Low-rise Concrete/ steel/ tilt-up building (group project)
 Plans
 20%
 Elevations/Building Section  14%
 Wall Section/Details  7%
_______________

55%
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The Fine Print….
 Information for Students - The following statements are in accordance with the BCIT Policies 5101, 5102, 5103, and 5104, and their accompanying procedures. To review these full, please refer to:
http://www.bcit.ca/about/administration/policies.shtml

 Assignments and Evaluation: Assignments must be done on an individual basis, unless otherwise specified by the instructor. All work will be evaluated as submitted, and submitted work is considered final. Students are expected to complete
the required work in the specified order and format, and will be evaluated accordingly.

 Late Assignments: It is the student’s responsibility to ensure that assignments/projects are submitted on time. Late assignments may be accepted at the instructor’s discretion. Assignments submitted after the due date and time will be subject
to a possible 20% penalty per calendar day. Assignments submitted one week and later, may be accepted, but not marked, and a zero grade will be assigned. Students should notify the instructor immediately of any extenuating circumstances
relating to late assignments. For late assignments due to illness, please see Medical Documentation and Late or Missed Work below.

 Attendance: Regular attendance in lectures, labs, field trips, workshops, etc. is seen as integral to student success, and will be monitored. Students are expected to be punctual and attend class for the full duration. Late arrivals or early
departures may be considered as absences. It is the student’s responsibility to obtain missed course material in a timely manner. Absence from more than 10% of the scheduled course hours may result in the student being prohibited
from completing the course. Course continuation will require the approval of the instructor and Program Head.

 Illness: In case of illness or other unavoidable cause of absence, students must communicate (telephone or email) with the instructor and Program Head as soon as possible, indicating the reason for the absence. Students who suffer a
prolonged absence of three or more consecutive days of in-class sessions must have a BCIT-approved medical certificate submitted to the Program Head. Excessive absence in a course (greater than 10%, as described in Policy 5101) may
result in failure or forced withdrawal from the course or program. Course continuation will require the approval of the instructor and Program Head. For instructions regarding doctor’s notes that support absences, please refer to Medical
Documentation and Late or Missed Work below.

 Medical Documentation and Late or Missed Work: A written doctor’s note is required for any illness causing a student to miss required academic work. This may include, but is not limited to: class attendance, class participation,
presentations, lectures, labs, project deadlines, assignments, in-lab exercises, quizzes, tests, exams, field trips, workshops, etc. The original medical note must be submitted to the Program Head within one (1) week of the last date of
absence, must substantiate the reason for the absence, and identify the exact dates of absence. Late medical notes may not be accepted. A separate and current medical note is required for each absence. The instructor will determine
the most appropriate method for making up missed work. It is at the instructor’s discretion whether to offer make-up exams, tests, or quizzes. It is the student’s responsibility to obtain missed course material in a timely manner.

 Academic Integrity: Violations of academic integrity, including dishonesty in assignments, examinations, or other academic performances are prohibited and will be handled in accordance with Policy 5104 — Academic Integrity and Appeals,
and accompanying procedures: http://www.bcit.ca/files/pdf/policies/5104.pdf

 Attempts: Students are allowed a maximum of three attempts to successfully complete a course. Students who have not successfully completed a course within the allowed number of attempts will not be eligible to graduate from their
respective programs unless special permission is granted by the program Dean. A student, who has attempted a course twice, will only be allowed to attempt it a third time with written permission from the Associate Dean, who will detail any
special considerations or conditions in a written contract with the student.

 Course Withdrawal: It is the student’s responsibility to follow the procedures for withdrawing from a course and/or program by the withdrawal deadline date outlined in the Calendar of Events (http://www.bcit.ca/calendar/main.php). Students
should consult with the Program Head to withdraw from a course or the program. Failure to withdraw from a course may result in a “V” grade. Late Withdrawals: Normally, a student may not withdraw from a course after the withdrawal
deadline date unless the circumstances are unusual and/or warranted. Late withdrawal requests designed to avoid failing or low grades are not acceptable.

 Accommodation: Students who may require accommodation from BCIT because of a physical or mental disability should refer to BCIT’s Policy 4501 - Accommodation for Students with Disabilities. Requests for accommodation must be made
to the Disability Resource Centre, and should not be made to a course instructor or program area.A student who needs special assistance in the event of a medical emergency or building evacuation (either because of a disability or for any other
reason) should promptly inform his/her course instructor(s) and the Disability Resource Centre of their personal circumstances.

 Cell Phones and Communication Devices: Cell phones, pagers, or other communication devices are to be kept on silent mode or turned off during class time. The use of cell phones is not permitted during class.

 Video, Digital, or Sound Recording: Video, digital, or sound recording of lectures, lab presentations, and posted course material is not permitted without prior approval from the instructor. Students are expected to take their own notes.
Internet: Internet and/or email use is not permitted during class time, unless it is being specifically required for the course. The Internet should not be considered as the only source of research for this course.

 Course Outline Changes: On occasion, the instructor may find it necessary to modify the material or schedule specified in this course outline. If major changes are required, they will be announced in class or through some other appropriate
communication.

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Weekly Schedule:
 Lectures: Thursday, 10:30 – 12:20
 Labs: Monday, 1:30 - 5:20 Sets A/B (Arch)
Tuesday, 1:30 - 5:20 Sets C/E (Econ/Bldg Sc)
Thursday, 1:30 - 5:20 Sets D/F (Econ/Bldg Sc)

Our ‘weeks’ will be staggered to reflect the Thursday lecture being
the start of the content for the coming week.
Monday classes will lose THREE! labs due to the statutory holidays.
NDTR: make-up lab on October 2nd, 15:00-17:00 NE01 329
Thanksgiving: labs cancelled for all sets
Remembrance Day: make-up lab on November 13th. TBC
Weekly schedule is preliminary and may be subject to changes
(Covid, power outages, snow etc)

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Schedule
Week Lecture Topics Lab Activity & Assignments
(Thurs. thru Wed.) (Thursday Morning) (Thursday, Monday and Tuesday)

Week 1 Sept 5 Sept. 5, 09 & 10
Sept 5- 11 Course Introduction Graphic standards review
Project organization / Working drawings Exercise 1- Drawing Reading
Week 2 Sept 12 Sept. 12, 16 & 17 Hand In Exercise 1
Sept 12- 18 Site, Structure and Sub-structure – review of sites & soils, foundations, envelope ACAD Refresher 1
below grade. Exercise 2- Drawing Warmup

Week 3 Sept 19 Sept. 19, 23 & 24 Hand In Exercise 2
Sept 19- 25 Concrete –review, formwork, finishes, joints, architectural ACAD Refresher 2
Slab on Grade- slab details Campus Construction Walking Tour
Start Term Project Ph. 1 (Plans)

Week 4 Sept 26 Sept. 26, (Sets AB), 30 & Oct 1
Sept 26-Oct 2 Structure: C.I.P. Concrete - Slabs, beams, columns, walls Term Project Ph. 1 (Plans)
Vertical circulation – Stairs and Elevators Sets AB LAB RESCHEDULED(?)

Week 5 Oct 3 Oct. 3, 07 & 08
Oct 3-9 Interiors: Separations and Partitions - Code requirements, partition types, steel stud Term Project Ph. 1 (Plans)
and GWB walls

Week 6 Oct 10 Oct. 10, 14 & 15
Oct 10-16 Envelope: Infill Framing, Cladding (Pt.1), Window Systems- Thanksgiving Oct 14
Steel stud infill, steel cladding, windows and storefront Labs for all sets CANCELLED

Week 7 Oct 17 Oct. 17, 21 & 22
Oct 17-23 Midterm Exam Term Project Ph. 1 (Plans)
FIELD TRIP- New St. Paul’s

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Schedule
Week Lecture Topics Lab Activity & Assignments
(Thurs. thru Wed.) (Thursday Morning) (Thursday, Monday and Tuesday)
Week 7 Oct 17 Oct. 17, 21 & 22
Oct 17-23 Midterm Exam Term Project Ph. 1 (Plans)
FIELD TRIP- New St. Paul’s
Week 8 Oct 24 Oct. 24, 28 & 29
Oct 24- 30 Structure/ Envelope: Precast Concrete- Overview, structural and architectural Term Project Ph. 1 (Plans)
cladding panels
Week 9 Oct 31 Oct 31,Nov. 4 & 5 Plans Due Start of Lab
Oct 31-Nov 6 Structure: Tilt-up Concrete- Overview, panels, connections Start Term Project Ph. 2
(Elevs/ sections)
Week 10 Nov 7 Nov. 7, (Sets AB), 11 & 12
Nov 7- 13 Structure: Steel- Structural framing, floor systems, fireproofing Term Project Ph. 2
Sets AB LABS RESCHEDULED(?)
Week 11 Nov 14 Nov. 14,19 & 20 Elev. & Sect. Due End of Lab
Nov 14- 20 Roofs Part 1: Parapets and Flat Roof Systems- Term Project Ph. 2 (Elevs/ sections)
Membranes, assemblies, RCABC, roof decks
Week 12 Nov 21 Nov. 21, 25 & 26
Nov 21- 27 Roofs Part 2: Roof Environment and Plans Start Term Project Ph. 3
Access and safety, equipment, drainage, plans (Wall section/ details, co-ord.)
Week 13 Nov 28 Nov. 28, Dec. 2 & 3 Details Due End of Lab
Nov 28- Dec 4 Interiors: Ceilings and Reflected Ceiling Plans– Term Project Ph. 3
Bulkheads , soffits, GWB & acoustic ceilings & ceiling plans (Wall section/ details, co-ord.)

Week 14 Dec 5 Dec. 5
Dec 5 Interiors: Doors and Firestopping- No Labs- Exams Next Monday
Doors, frames and hardware, firestopping systems
Week 15 Dec 9-13
Final Exam – Date and time to be announced

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BLDG 3200 – BLDG 4200
 BLDG 3200 Building Construction Technology 3
 Term 3 Architectural & Structural Integration
Concrete, Steel and Timber Structure
Basic interior construction
Window Systems
Roofing
Application of ACAD

 BLDG 4200 Building Construction Technology 4
 Term 4A Acoustics
Interior Architectural Components
More Window Systems
Application of REVIT
 Term 4B Building Envelopes
Precast Construction
More Roofing

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How Is This Course Different From
BLDG 1200/2200 In First Year?
 BLDG 1200/ 2200
 Part 9 in BCBC
 May not have an Architect or Engineers involved
 Smaller wood-frame buildings
 Combustible construction

 BLDG 3200/ 4200
 Part 3 – “commercial construction”
 Larger, more complex buildings
 Architect, Engineers and other consulants required
 Greater life-safety issues (exiting, fire safety,
accessibility)
 Greater variety of structural and assembly options
 Some overlap with/ extension of other courses.
Especially BLDG 1050 – Materials & Processes.
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To Be Successful In This Course,
Show Competency In:
NEW IMPROVED YOU!

DRAWING LITERACY (understanding BUILDING TECHNOLOGY
drawings, graphic standards, CAD) (materials, structures, building envelope )

CONSTRUCTION PRACTICE/ CODE
(On‐site, regional)

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To Be Successful In This Course

T H I N K
&
PROCESS
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Drawing Literacy
 CADD – this term, AutoCAD
 Next term – REVIT (BIM - Building Information Modeling)
 Your 3810 project carried on as base for 4200 projects- so don’t lose it!

 Manual drawing/ lettering
 Be prepared to draw details/ lettering by hand
 In class and during exams
 This skill is STILL useful in the industry
 Site communication, quick design sketches

 Reading construction drawings
 Navigating drawing sets to find information quickly & accurately
 Graphic standards/drawing packages/consultant drawings
 Industry standards- we need consistency so everyone understands

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Building Construction Technology
Includes:
 Physical systems that define, organize and reinforce the
perceptual and conceptual ordering of a building
1. Structural system
2. Enclosure system (exterior and interior)
3. Services: Mechanical/Electrical systems
(condensed from Building Construction Illustrated, Ching)

 In other words…

Our role as Building Technologists is to understand, integrate
and incorporate construction technologies into the design and
construction process

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1. Structural System
 Substructure – underlying
structure forming the foundation of
the building
(soils/footings/foundations)

 Superstructure – load-bearing
portion of the building above the
foundation (columns, beams, load-
bearing walls supporting floors & roof
structure)
 We will cover structural materials
such as concrete, steel, timber,
precast concrete, tilt-up concrete,
concrete masonry in 3200/ 4200

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2. Enclosure System
 Building Envelope – roof, exterior walls, windows /doors,
foundation.
 Dividing exterior & interior environments
 Controlling moisture/heat flow/air flow/acoustics
 Interior partitions - subdivide interior spaces
functionally/spatially, environmentally & acoustically

Exterior Separation Interior Separation

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3. Mechanical/ Electrical Systems
Distribute essential utilities and services
throughout the building:
 Water supply system/sewage disposal system/
Storm water system
 HVAC - heating/ ventilation/ air-conditioning
systems with associated plant/ alternative
energy sources. Also controls. Bullitt Centre, Seattle‐ Composting Toilet Processors

 Electrical system - power, lighting, security,
communication/ AV. And alternative energy
sources.
 Fire-fighting systems
Other:
 Vertical transportation system – MEC Head Office – Heat Pumps

elevators/escalators
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Consultant Organization & Areas
of Responsibility
 Architect (coordinating registered professional)
 Architectural design/ layout
 Coordinates structure and systems
 Managerial (co-ordinates w/client/ consultants/ authority having
jurisdiction eg. City Hall)

 Engineers
 Structural – sub/super-structural design
 Mechanical – environmental comfort (HVAC, Plumbing), fire
protection
 Electrical – power, lighting, communications, security
 Geotechnical- soils

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Other Consultants
 Landscape Architect
 Hard/soft landscaping

 Building Envelope –
 Arch/Eng. Specialists in building science

 Building Code Consultants
 Interior Designers
 Sustainability System Specialists
 (LEED, Living Building Challenge)

 Commissioning
 …….
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Design & Construction Process
+ Stages Of Drawings
DOCS PHASE TEAM

Client Client Consultants T Contractor Client
Consultants Consultants E Consultants Users
N
Schematic Design Contract Construction
Occ.
Design Development Documents
D
Zoning Development Tender Set E IFC Drawings Record
Submission Permit R Drawings
Building Contract Admin
Submission
Permit Drawings
Submission
As-Built
Drawings

BLDG 3200/ 4200

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Development of Contract
Document (Working) Drawings
 Drawings, especially CADD/ BIM based, develop with project:
 Schematic Design to…
 Design Development to (subset for DP) to…
 Working Drawings (subsets for Building Permit and Tender or IFT)
to…
 Issued for Construction Drawings (IFC) to…
 Record Drawings

 Typical for all disciplines (Architectural, Structural, Mechanical,
Electrical, Landscape etc)

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Drawing Sets:
Consultant Drawing Order (Basic)
Drawing Set Drawing Letter Designation
 Architectural A
 Structural S
 Mechanical M
 Plumbing P
 Fire Protection FP
 Electrical E (not usually separate
designations for power, comm, lighting)
 Landscape Architecture L
 + additional consultant drawings as required
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Definition of Architectural Working
Drawings
 Drawings developed for the construction stage of the building
includes information for:
 Construction (location, dimensions, material type, referencing)
 Estimating/ tendering
 Building Permit
 Legal documentation (contract, GCs, supplemental GCs, Division
01, specifications, drawings, addenda, change orders…)
 forms part of the Contract w/written specification which give more
detailed material and procedural information
 Therefore, often referred to as Contract Documents

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Building Permit Drawings
 Drawings and specifications (on drawings or separate) are
submitted to the City Permits Department for Building Permit.
 Requirements vary by municipality
 Need to cover off all code/ life safety issues
 As mentioned, often a subset- not 100% issued for construction
drawings
 Consultants are required to submit Letters of Assurance
which document specific areas of responsibility for design and
field review.
 Therefore, consultants assume liability

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Drawing Scales
ALL work in BLDG 3200 and 4200 to be in Metric

Scales should be based on :1 :2 and :5
Examples: 1:1, 1:10, 1:100, 1:1000
1:2, 1:20, 1:200
1:5, 1:50, 1:500

Please DO NOT USE 1:250, 1:125- not available on all
scales.
1:300, 1:40 OR ANY OTHER MADE UP SCALE ‘TO SUIT’... THOSE
SHOULD BE LABELED NTS IF USED

Marks deducted in this class if these odd scales are used.
Also… learn to ‘plot’ correctly- if you don’t, your prints/ PDFs may
not be to scale

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Working Drawing Organization
 Numbering now evolving to A1.00, A2.00 (or similar) system
from previous A0, A1, A2 etc.
 There are other variants on the system used below (A####, A#.####...).
 Allows for 100 drawings in a grouping
 Easier to add drawings in logical place as documents develop

 Architectural Sheet #
 Title Page/Reference Sheet (rendering/ survey/ bldg code/ wall types) A0.00
 Site Plan (or survey in this group) A1.00
 Floor and Ceiling Plans (start at lowest level) A2.00
 Elevations A3.00
 Sections …
 Wall Sections
 Details
 Schedules (now often at front of set)
 Sometimes code compliance drawings (can be near front of set).

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Working Drawing Organization
Drawing hierarchy by density of information and scale:
1. Site/ Location Plans (eg 1:200, 1:500 or 1:1000) Not much
Depends on scope of work, site size and sheet size drawing
detail
2. Overall arrangement drawing (eg. 1:100 or 1:50)
Entire plan/elevation/building sections
For larger buildings hard to get all detail on 1:100 so
these are often used as key plans/ reference drawings
only
1:200 sometimes used during design
3. Intermediate view drawing (eg. 1:20)
Partial plan/interior elevations/wall section
Lots of
4. Detail view drawing (eg. 1:10, 1:5 or even 1:2) drawing
High resolution for detailed explanation detail
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Architectural - Overall Plan View
eg. 1:200 or (better) 1:100 or (best) 1:50
 May have key plan set at 1:200 if
plan has to be broken up
 Includes
 GRIDLINES
 Walls
 Windows/ doors/
symbols
 Plumbing fixtures
 Stairs
 Wall types
 Dimensioning
(walls/ windows)
 Room labels/ #s
 Building section symbols/
interior elevation symbols
 Detail symbols
 North arrow (north is up!)
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Architectural - Overall Elevations
eg. 1:100 or 1:50
 Includes:
 Gridlines
 Floor elevations/ elevations
 Critical vertical dimensions
(avoid horizontal dimensions)
 Cladding material
 Building section/ detail
symbols (referencing)
 May include outline of
foundations

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Architectural Building Sections
(eg 1:100, 1:50)

 Includes:
 Gridlines
 Floor levels/ elevations
 Critical vertical
dimensions
 Ceiling heights
 Floor locations
 Room names
 Foundations
 Location of wall sections/
details (referencing)
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Architectural Wall Section
(eg. 1:50 or 1:20)
 Includes:
 Gridlines
 Floor levels/ elevations
 Additional dimensions
 Floor locations
 More detailed wall/ floor
assembly
 Foundations
 Location of critical details
(referenced)

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Architectural - Detail Plan
eg. 1:20 or 1:50
 Increased detail on:
 Stairs
 Wall types
 Dimensioning
 Wall section symbols
 More Detail symbols
 Can add accessories (ie Div.
10 items like grab bars,
whiteboards…)
 North arrow helpful (especially
if rotated from overall plans)

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Architectural - Detail Elevations
(eg. 1:20)

 Detailed view includes:
 Gridlines (where relevant)
 Focus on vertical dimensions
 Horizontal dims as necessary
(if they can’t be on plans)
 Section references
 Additional notes on materials,
sizes

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Architectural Detail Sections
(eg.1:20)
 For particular areas eg.
Stair
 Includes more detailed:
 Gridlines
 Floor elevations
 Critical vertical
dimensions
 More detail wall/floor
assembly
 Additional detail symbols

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Architectural
Plan Construction Detail
(eg. 1:10 or 1:5 or… 1:2!)
 Particular construction detail:
 Material- detail, label or
reference symbols, hatched
(full or part)
 Attachment
 Arrangement and assembly of
component parts
 Dimensions or sizes
 Note: only a shallow view
range- avoid background

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Construction Section Detail Dwgs
eg. 1:5, 1:10 Particular construction detail:
 Material- detail, label or reference
symbols, hatched (full or part)
 Attachment
 Arrangement and assembly of
component parts
 Dimensions or sizes
 Note: only a shallow view range-
avoid background

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Consultant Working Drawings
All use architectural layout drawings as a background
 Changes must be kept up to date
Characteristics/ idiosyncrasies
 Structural drawings:
 Show building structure & reinforcement
 Floor plan shows structure of floor/beams below & location of structural
walls but not partition walls
 Mechanical/ electrical
 Floor plan shows layout on ceiling above or on walls
 Plumbing can show fixtures plus piping from floor over
 More schematic & diagrammatic- usually include layouts and line
diagramme schematics
 Sometimes equipment sizes are not exact (CADD). Revit is changing this
(yeah!)
BRITISH COLUMBIA INSTITUTE OF TECHNOLOGY BLDG 3200 Fall 2024
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46

eg 1:50

 Structure only (with sizes/spacing/reinforcing)
 Indicates structural and non-structural walls, columns
Also
No building envelopeand
shows plumbing (eg.some
no windows, insulation),
mechanical and electrical
 No partition walls, doors (exception may be concrete block).
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Mechanical – Plumbing Plan

 Plumbing fixtures: w.c. (toilets), lavatories (sinks)
 Piping, drain locations in walls, floor
 Fixtures not always dimensioned. Therefore, architectural
must provide dims
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Mechanical - HVAC Plan

 Heating/ Ventilation/ Air Conditioning
 (eg. fans, ducts, diffusers, vents)
 At ceiling level
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Electrical – Lighting Plan

 Reflected Ceiling Plan shows lighting fixtures, switches, exit sign
locations
 (Architectural will also show an RCP with all ceiling components)
 (Architectural will also need to show dimensions to locate light
fixtures and other items requiring coordination
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Electrical – Power Plan

 Locations of power circuits, outlets, equipment AND PANELS
 Locations in walls, ceiling
 May include data or that may be a different series
BRITISH COLUMBIA INSTITUTE OF TECHNOLOGY BLDG 3200 Fall 2024
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Building Construction 3
BLDG 3200

Week 2 Lecture
2024 September 12

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Week 2- Site, Structure and Substructure

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Agenda: Week 2
 Sites
 Site drawings, soils
 Structure (supplemental information- study on your own)
 Overview of structural concepts and elements
 Substructure
 Foundation systems
 Shallow
 Deep
 Concrete foundation walls
 Basic envelope components
 In class and during exams

 Ching Text Reading: Soils:1.12-.13, 1.25, Structure: 2:10-.26 (and on to.36 if you’re
interested) 4.02-.03, 5.02-.03, 6.02-03, Substructure: 3.05, 3.08-.10, 3.14, 3.16-.17
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Sites
Every site is unique:
 Topography, soil composition, groundwater, views, light...
 Particular combination of these characteristics

 Soil bearing capacity
 Regional and site specific soils may not be able to support buildings

 Site drainage
 Combined responsibility of:
 geotechnical engineer (determination of likelihood and depths of H20, makes
recommendations to mech),
 architect (determines final slopes and grading) and
 mechanical engineer (removal of H20)

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Site Drawings
 Required for development permit, building permit and construction
 Depending on the scale of the project, various drawings describing the site may be
required (depending on project type, scope and municipality):
 Survey plan- by BC Land Surveyor to be legal survey
 Will record property lines and physical characteristics (what, where, how high) and will sometimes
note services below grade.
 Demolition Plan
 What needs to be removed, saved, protected and salvaged

 Site Plan – proposed improvement to site, usually required
 Building(s), site access, drives, sidewalks, parking, loading, basic landscaping, fencing, etc
 Contractor’s construction site plans
 Layout to include hoarding line, gates, site offices, storage, safety features, crane swings, flow
patterns, loading zones, wheel baths, water treatment equipment, temp. power connections etc

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Survey Plan BCIT Aerospace Building
survey plan contains:
 Property lines
 Point elevations/ contour lines
 Natural features
 Existing buildings
 Neighbouring buildings
 Street layout & names
 Driveways: curbs, curb-cuts
 Sidewalks /curbs
 Street lighting
 Storm and sanitary lines
 Water Lines
 Natural gas lines
 Buried and/ or overhead power
 Buried and/ or communications
lines
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Demolition Plan
 Existing building and site features
 Indicates what is being demolished…..
 ….and what is to remain.

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Complex Site Plan
BCIT Aerospace Building plan
contains:
 Building outline
 Street layout & names
 Driveways: curbs, curb-cuts
 Parking layout, stall dimensions,
 Sidewalks /Exterior stairs
 Exterior lighting
 Bike racks
 Planters/trees/ hose bibs
 Topographic slope lines/North
arrow
 & more!

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Complex Site Plan Keyed notes due to
drawing scale

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Soils
 Formation of soils
 Weathering from rock, decay of organics, other
 Moved and deposited by wind, water, glacier movement, etc.
 Soil mixtures
 Typically not homogeneous for full
depth
 Deposited in layers (strata)
 Different soils have varying strengths
 Soil bearing capacity
 Dependent on soil type mixture/layers
 Amount of water/ air in soil
 Compaction (density)
 Above often related to whether or not soil is:
 ‘Disturbed’
 ‘Undisturbed’
 ‘Native’
 ‘Imported’
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Soil Classification & Bearing Capacity

BEST

WORST

Image courtesy of Building Construction Illustrated 1st Ed. – F.Ching

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Van Dusen Gardens
Construction & Natural Soils

 Soils also react differently when wet
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Geotechnical Analysis
 Required before structural design can begin
 ‘Never judge a book by it’s cover.’
 By Geotechnical engineer
 Determines soils types/ composition
 Water content and drainage characteristics
 Soil bearing capacity
 Eg. how much weight can the site soil hold up
 Report is used by Structural Engineer to design the structure of the building
 Reports may include comments on:
 footing design,
 seismic behavior,
 expected settlement,
 drainage characteristics,
 soils needing to be removed and replaced etc.,
 Excavation limitations
 Requirements for building against existing
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Structural Drawing Notes:
 Geotechnical engineer does soils report to determine soil bearing capacity
 Structural engineer uses report to design foundations

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Structural Concepts (READING HOMEWORK: SLIDES 15-25)
 The following section is a brief
introduction to the basic concepts of
structural support systems for buildings
 The information is embedded in your
Materials and Methods and Structures
courses (and others) but I have
prepared this summary as a reminder
of what fundamentals of structure are
about
 There will be more in coming lectures,
specific to structural building materials
 Please take the time to review these Image courtesy Brent

slides on your own.

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Structure
 Generally, buildings are typically a
combination of…
 Structure
 Envelope
 Subdivided interior spaces
….Created by horizontal and vertical
elements such as floor planes, roof
planes, wall planes and columns
 These elements can be configured to
suit structural and spatial requirements
 Not all buildings require envelope and
subdivided spaces but all require
structure Image courtesy of Building Construction Illustrated 1st Ed. – F.Ching

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Structural Loads
 Buildings must withstand the following loads:
 Dead Loads- all fixed elements of the building including the
structure itself, all walls/ partitions, soil, finishes, woodwork,
equipment etc.
 Live Loads- the vertical and horizontal loads on the building
which change in duration, location & magnitude such as
wind, water, snow, furnishings, cars, occupants etc.
 Seismic Loads- horizontal and vertical loads imposed on
the structure by earthquakes
 Impact Loads- rarely a significant issue related to building
support/ stability but vibration control needs to be
considered in design. Examples include exterior sources
like traffic, internal sources such as occupants and
equipment Image courtesy of Building Construction Illustrated
1 Ed. – F.Ching st

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Structural Hierarchy
 Loads must be transferred through the structure to the Earth
 Dead loads act within structure itself- columns, floor structures,
wall assemblies.
 Live loads act on building elements such as floors, roofs and walls
 Loads follow ‘path’ from load point through structure to bearing
soils
 For example: 1

 A car in precast concrete parkade is supported by floor structure.
2
 Floor structure is supported by joists.
 Joists supported by beams
3
 Beams supported by columns Bearing Soil

 Columns supports by pad footings Image courtesy of Building Construction Illustrated 1st Ed. – F.Ching

 Pad footings supported by soil
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Support Systems
 Engineers (and architects) need to chose a strategy to
transfer loads that satisfy structural and building function
requirements.
 Basic approaches include….
 Point/ linear- includes structural components like Linear/ Point
columns and beams. These are used to create a (Beams/ columns)

SKELETON FRAME. Applications include wood post
and beam and structural steel structures.
 Planar- Includes structural components like walls and Planar
slabs/ floor structures. These are flat plate-like (Walls)

elements or assemblies that include wood platform
framing, concrete walls and slabs.
 Hybrid- when the above two are used together. This is
very common to satisfy the requirements for live, dead Hybrid
& seismic loads + functionality. (Both)
st Ed. – F.Ching
Images courtesy of Building Construction Illustrated 1
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Floor Systems
 Requirements and choices:
 Structural issues:
 Load-bearing strategy and expected loads?
 Lateral strategies?
 Architectural Issues
 Non-combustible or combustible?
 Ability to run/conceal mechanical/electrical services?
 Exposed structure? Or hide structure?
 Ceiling height requirement for building usage?
 Dropped ceiling? Acoustic requirements?
 Construction Issues
 Formwork strategy?
 Schedule
 Weather

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Floor Systems 2-WAY SLAB

 Concrete 1-WAY SLAB
 Cast-in-place suspended slabs
 Beams, slab bands or 2-way slabs
 Pre-cast- planks or T’s

 Steel
 Beams with floor
 (eg. steel decking w/ concrete topping
 Beams with joists (floor sim)
 Wood
 Heavy timber type:
 Beams w/structural decking or CLT
 Lightweight wood framing:
 Beams/joists/floor sheathing
from Building Construction Illustrated, Francis Ching

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Vertical Support (walls & columns)
 Requirements:
 Structural issues:
 Load-bearing strategy? (Point load? Continuous load?)
 Lateral strength requirement?

 Architectural Issues
 Code: Non-combustible or combustible?
 Size of and location of openings? (windows/doors/ mechanical)
 Integration of services (electrical)?
 Exposed structure? Or hide structure? (material and code issues)
 Location of insulation? (acoustic/ thermal, and its continuity)
 Function? (grid/ structural spacing)
 Aesthetics (what it looks like)
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Wall Systems
 Mass bearing walls
 Reinforced concrete (CIP, Tilt-up)
 Reinforced masonry
 Wood (CLT, LSL, Nail/ Dowel Lam)
 Steel & wood stud walls
 Structural or infill
 (+ sheathing, barriers and finishes)
 Structural frames (a.k.a. braced frame)
 Heavy timber frame
 Structural steel frame
 When above are braced, bays act like panels
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Developing the Structural Grid
 Architect and Structural Engineer meet early in the design process to decide on the type of
structural system and structural material:
 Span required for building function and architectural room layout
 Distance between columns
 Code requirements (possibly zoning requirements)
 Height of floor to floor is also required (like vertical grid)
 Based on use of room eg. office x warehouse
 Coordination of mech/ elec services
 Equipment clearances

 Structural engineer develops the structural system and draws the basic structural grid.
 Shows column/wall/foundation/footing
 Architectural design overlaid over the basic grid
 It’s a back and forth process between Engineer & Architect

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Substructure

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Substructure
 That portion of the building structure that
is located below grade
 Foundation system/ SOG
 Structural Engineer designs structure
 Type of foundation
 Materials/ reinforcement
 Architect designs building envelope
below grade
 Damp/ waterproofing
 Below grade insulation
 Co-ordinates with mechanical for site
drainage

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Foundation Systems
Function
1. Transfer loads
2. Anchor structure
3. Create envelope (control moisture/
heat/ gasses)
4. Resist lateral loads of soil and
hydrostatic pressure

Settlement
 Consolidation
 Uniform settlement
 Differential settlement Images Courtesy of E.Allen Fundamentals of Building Construction

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Footings / Foundations
 Structural Drawings:
 Shows reinforcement
 Dimensions of footing

 Architectural Drawings:
 Shows shape and size of footing/
foundation
 Don’t show rebar
 Don’t show footing dimensions
 Specifies moisture barrier/
insulation

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Types
1. Shallow Foundations- soil with acceptable soil pressure at/ near lowest level of
bldg
 Slab on grade (no basement or crawl space)
 Isolated pad footings + column
 Strip/continuous footings + foundation wall
 Stepped footings + foundation wall
 Combined footings + foundation wall + column
 Mat/ Raft foundation (distribute the building loads over a wide area/ balance with soil)

2. Deep Foundations- acceptable soil is below lowest level or there is no bearing soil
 Piles - End-bearing or Friction
 Caissons
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Isolated (Pad) Footings + Column
 Reinforced concrete with steel
 Transition to concrete, steel or wood
column

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Strip/Continuous Footings

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Combination Footings For Columns/
Structural Walls

Structural Drawing Example

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Combination Footings For Columns/
Structural Walls
Structural Examples

 Reinforced with steel,
and steel is indicated
 Concrete may
transition to other
structural systems
above grade

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Column Base Detail

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Different Footings/ Foundation Under Column
and Wall

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Combined Footings
 Widened footing includes both column
and foundation wall footing
 Continuous pour of footings for
continuity

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Stepped Footing
 Used where there is a slope or change
in grade to reduce excavation and
foundation material
 Structural Engineer provides detail

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Compaction Example
 Not all soils can
support footings. Can
use deep foundations
or:
 Compact soil to
support building loads.
Example: Rapid
Impact Compaction

Images courtesy of Brent

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Raft/ Mat Foundations
 Raft= foundation system floating. Balance
building load with displaced soils and water

 Mat= distributing load under most of
building footprint

 Thick, heavily reinforced concrete slab

 Becomes like a large pad footing

 Used in poor soil conditions (low bearing
capacity) or for very high concentrated
loads
MAT
 Eg. Richmond due to soil, very tall towers RAFT
like the Shangri La

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Deep Foundations
 End bearing piles
 Reach to bearing layer/bedrock to support building
 Friction piles
 No connection to load beading soil- floating effect
 Caissons
 Drilled and filled concrete piers
 Can be in soil or water
 Piles can be steel, concrete, stone (crush) or
wood
 Piles typically driven into soil (pounded by
driver or vibrated), drilled or inserted in hole.

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Stone Piles/ Columns
 Many stone piles/
columns required (high
density)
 End bearing
 Concrete mat slab poured
over stone columns/ piles

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Pile Caps
 Interface between pile and
superstructure
 Typically reinforced concrete
 Can be individual, strips or mats.

Site-work at VanDusen Gardens Interpretive Centre

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Concrete Foundation Walls
 Issues:
 Structural
 Resist soil/water pressure forces
 Transfer building live and dead loads +
seismic
 Building Envelope:
 Thermal – stop heat loss
 Moisture – stop groundwater

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Concrete Foundation Wall

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Foundation Wall
Thermal Insulation and Moisture
Barrier
 Drainage matt
 Rigid insulation
 Waterproof membrane
 C-I-P concrete foundation wall
 Mechanical attachment

Mountain Equipment Co-op, Vancouver,
Ventana Construction

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Foundation Wall

Thermal Insulation and Moisture
Barrier

 C-I-P concrete foundation wall
 Thermal/moisture protection assembly
 Storm-water drainage piping and cleanouts
 Gravel
 Back-fill

Mountain Equipment Co-op, Vancouver
Ventana Construction

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Variations In Wall Foundations
 When resolving transition to
superstructure, consider
barrier continuity:

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Foundation Wall– Architectural Detail

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Grade Details @ Foundation Wall
 Separate grade materials from wall cladding materials.
 Primarily if wall materials are organic (wood)
 Also depends on grade type (pests in soil)
 Check Part 3
 Good practice 150 – 200 mm above grade
 Often much less!

 Slope away from building
 Impervious materials (eg. paving) 2% min. to ensure positive drainage
 Otherwise, 5% minimum

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Architectural Foundation Wall Type

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Concrete Water Stop
 Water stop –
a product to stop water leakage through
a concrete wall/ footing/ slab where
hydrostatic pressure is present.
 Commonly used where concrete pour
joints (cold joints) occur.
 Can be a rubbery accessory or
expanding clay product cast inside
concrete (as shown) or added to outside
of ‘cold’ joint
 Coordinate with structural.
Image courtesy of Durajoint Concrete Accessories (Durajoint.com)

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Concrete Water Stop in Wall
 Used at pour joints below grade

 Many different materials are used as
waterstops:
 Eg. PVC, EPDM, Bentonite (expanding)
clay, neoprene, mastic cement

Image courtesy of Durajoint Concrete
Accessories (Durajoint.com)

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Concrete Faced Insulation (CT Board)
 XPS (expanded, extruded polystyrene) with 10mm thick
cementitious layer bonded to one side. Tongue and grove
(T&G) edges with galvanized steel attachment clips to suit.

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Concrete Faced Insulation (CT Board)

BRITISH COLUMBIA INSTITUTE OF TECHNOLOGY BLDG 3200 Fall 2024
 1

Building Construction 3
BLDG 3200

Week 3 Lecture
2023 September 21

BRITISH COLUMBIA INSTITUTE OF TECHNOLOGY BLDG 3200 Fall 2023
 2

Week 3-
Concrete Pt 1: Forms, Finishes, Joints, Slabs

TWA Terminal,
New York

Villa Savoye, Chemistry Building,
Poissy-Sur- Seine UBC

BRITISH COLUMBIA INSTITUTE OF TECHNOLOGY BLDG 3200 Fall 2023
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Concrete as a Material
Review in textbook; 12.04/.05 (and Fundamentals of Building Construction) and
review the following:

 Advantages and disadvantages
 Portland cement/ water/ aggregate/ admixtures
 Water – cement ratio, strength issues
 Steel reinforcement
 Curing

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Concrete Characteristics
 Strength
 Structural strength to support building…
 Yet brittle and will crack under certain conditions
 Heavy, dense material
 Non-combustible, sound deadening, heat-storage
 Porous material
 Moisture moves through capillary action, pressure differential
 Needs to be blocked from entering or deflected away
 Moldable
 Formable plastic material (before curing) that adopts surface texture
 Formwork quality can affect final appearance
 Placement
 Staging, hopper/ pumping, consolidation, weather

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Concrete Formwork and Finishes
 Concrete surface reflects the texture of the inside surface of the form.
Common products used for formwork are:
 Standard plywood surface = wood grain pattern and panel seam
pattern on concrete
 Formply= smooth finish on concrete. No grain but panel pattern.
 Steel formwork = smooth “shiny” finish
 Eg. Used in prefabricated steel formwork for columns
 Sonotube formwork (prefabricated round column formwork of compressed
fibre) leaves a smooth textured surface and a spiral pattern on the concrete
 Also form liners for custom designs and ultra smooth finish
 Architect will coordinate with structural to develop documents to achieve
desired concrete finish
 GC or CM and trades responsible for formwork design and construction
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Concrete Surface Imperfections
Why are we interested in formwork?
If things aren’t set up correctly…

…. Formwork quality is telegraphed
into the concrete.

BRITISH COLUMBIA INSTITUTE OF TECHNOLOGY BLDG 3200 Fall 2023
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Concrete Formwork

Form ties
Plywood sheathing

Vertical wood stud
Horizontal walers
Dowels
Footing
Image courtesy of Building Construction Illustrated – F.Ching
Bracing
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Formwork at BCIT

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Inside the Form
 Smooth inner surface of formwork
sheathing

 Horizontal/vertical steel reinforcement

 Form-tie w/orange (or yellow or green)
cone

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At a Bigger Scale…

 Re-usable form ties in sleeves or lubricated. Will
leave a penetration through the wall which must
be filled
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Modular Steel Formwork
 Steel form structure with replaceable
wood form panels & form-ties
 Can be re-used over and over if cleaned
and cared for.

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Modular Steel Formwork

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Column Formwork
 And steel ‘clamshell’ column forms for
round columns

Image courtesy of Building Construction Illustrated – F.Ching

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Spiral Paper Column Forms
 Concrete
texture from
smooth
waxy
surface of
spiral wound
paper form

 BCIT SE2
building
example

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Formwork

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Placing The Concrete
 Pumper truck
 Filling the form
 Consolidating the concrete- mix type
and vibration
 Float leveling the top of the wall

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Formwork Effects
 When forms are stripped, formwork
impressions are visible.

 Along with any surface imperfections.

 If concrete is going to be concealed
(below grade, in service rooms etc), no
more finishing is done

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Basic Concrete Wall/ Column Finishes
 Common (structural) finish
 Basic structural concrete, minor filling of cracks/honey-comb
Eg. in stairs, parking garages
 Most economical
 Architectural finish (appearance grade)
 Higher grade of finish = more expensive. Usually better
forms and finishing
 Sack finish
 Thin layer of concrete slurry applied with sack on rubbed
into holes/surface imperfections, fins removed
 Similar process done with trowel
 Grinding

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Basic Structural Concrete

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‘Rendered’ Concrete In Exit Stair
 Term to describe additional
finishing work done to concrete
 Often a combination of sack
filling and grinding
 Specialist trade can be hired to
do this work.

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Architectural Concrete Wall Finishes
Combination of formwork/ finish/ polish to achieve the highest level of
surface appearance & to remove surface imperfections
Key is the formwork and placing need control over form materials, tie
type and spacing, reveals…
For exposed feature concrete on exterior/ interior- eg. in lobby of
building
More expensive
Many concrete buildings now finished with elastomeric coating
Can be specified by architect in Division 03.

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Architectural Concrete: Pattern & Texture
 Formwork
pattern from
plywood and
form-ties

 Reveals create
shadow lines

 Concrete
surface reflects
pattern of
formwork Surrey City Centre Library, Bing Thom Architect

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Form-tie Pattern On Concrete
 Spacing? No ‘typical’ tie spacing. Depends on form construction relative to mass
of concrete supported (height and thickness)

 Void is plugged with concrete,
epoxy, grout, sealant or…
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Form-tie Pattern On Concrete
SALK INSTITUTE
RECTANGULAR ARRAY
SAN DIEGO
Louis Kahn

METAL PLUG

CLOSE SPACING

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Surface Patterns
 Chamfered edges for 90
corners
 Easier to vibrate into
corners
 Reduces risk of damage
 Grooves/ reveals
 For control joint or cold
joints
 Helps separate possible
colour and alignment
change at floor levels
 For appearance

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Surface Patterns Applied In Formwork
 Reveals
 Rectangular, triangular or trapezoidal
notch in concrete surface

 Chamfered edges – angled edge

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Concrete: Construction Joints
 Issue –once concrete has cured – how can we “join” the next batch to the old?
 Fresh concrete can bond to older cured concrete – within limitations

 Pour joint – a planned and designed construction joint between one pour and the
next
 Slabs & beams– usually poured all-at-once for highest tensile strength and monolithic
construction
 Walls & columns – typically at top of wall before slab is poured
 Pour line can be disguised, or emphasized, by adding a reveal

 Cold joint – Can be planned or an unplanned interruption in the concrete pour.
 Eg. Not enough time to complete pour

 Waterstop – As noted last week…a device/material to prevent water movement
through a pour joint in a foundation wall/footing
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Concrete Wall Pour Joints
 Reveals in these locations can hide
issues like:
 Poor formwork alignment
 Minor variations in concrete colours
 20mm noted should be considered a
minimum.

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Can You Find the Pour Joint?

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Concrete Pattern Indicated Elevation Drawing
Concrete reveals
 Line up with edges
of windows or at
pour locations
(floors)
 Where cracking
might occur
Form-tie pattern is
indicated
 If it is architectural
concrete where
pattern is important

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Concrete Surface Finishes by Formwork
 Form liners
installed inside
forms before
concrete
poured
 Results in
uniform,
smooth, shiny
surface
 Will leave seam
where liner
ends/ starts

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Board Form/ Beton Brut Finish

 Finish is cast into
concrete
 Textured surface
from wood planks
in form
(wood-grain)
 Boards can be
smooth or rough
 Option to leave
gaps between
boards to create
concrete ridges
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Concrete Finishing After Concrete Has Set
 Sand-blasted concrete (wall but slab poss.)
 Roughens the surface and exposes a bit of
aggregate
 Bush-hammered (wall)
 Jack-hammer the surface
 Exposed aggregate (slab)
 Wash top layer of cement away to expose the
rock aggregate
 More commonly used for slabs and precast
but can be used for walls

 A decorative aggregate mix can be used for
better appearance

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Concrete Slab On Grade
 Slabs at grade, often tied to foundation
wall

 Slabs below grade often detached from
SUSPENDED SLAB
(VOID BELOW)
foundations
 Supported by fill- may behave differently to
walls
 Therefore, isolation joints between slab on
grade and walls/ columns- cold joints or
with fillers

From Building Construction Illustrated, Francis Ching

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Concrete Slab on Grade
 100- 150 mm common thickness
 Often reinforced:
 Welded wire for shrinkage
 Bar reinforcement heavier loads
 Rigid insulation under slab
 Water-proof or moisture resistant
membrane/ barrier under slab for
groundwater protection eg..15mm poly
 Membrane also for soil gas control
 Compacted sand/gravel over compacted
soil base- as recommended by
geotechnical engineer or structural
engineer
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Structural and Architectural Details

STRUCTURAL ARCHITECTURAL

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Footing with Tilt-up

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Slab-on-Grade Construction
Footings in place
Foundation “wall”
formed
Next steps:
 Services
 Backfill and
compaction
 Barrier and insulation
 Rebar/ mesh
 Concrete and finishing
Mercedes Benz Vancouver , Ventana Construction

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Slab-on-Grade Reinforcin