Industrial Materials and Processes Introduction PDF

Summary

This document provides an introduction to industrial materials and processes, covering topics such as production systems, production facilities, language of manufacturing, and the product life cycle.

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INDUSTRIAL MATERIALS AND
PROCESSES
AN INTRODUCTION
- PRODUCTION SYSTEM
- PRODUCTION FACILITIES
- LANGUAGE OF MANUFACTURING
- PRODUCT LIFE CYCLE
PREFACE

 The standard of living in any society is determined, primarily, by the
goods and services that are available to its people. In most cases,
materials are utilized in the form of manufactured goods. Converting
materials from one form to another add value to them. The more
efficiently materials can be produced and converted into the desired
products that function with the prescribed quality, the greater the
companies’ productivity and the better standard of living.
 HISTORICAL PERSPECTIVE
 Development and 35000 YEARS 1800 YEARS 3300 YEARS
advancement of STONE AGE BRONZE AGE IRON AGE
human societies is
closely related with
materials and its
development 60 YEARS 50 YEARS 35 YEARS
 Civilization have been CONCRETE/STEEL POLYMER AGE SILICON AGE
AGE
named based on the
level of their material
development
15 YEARS
INFORMATION
AGE
Production System and Manufacturing System:
Differentiated

 Manufacturing is the economic term for making goods and services available to satisfy
human wants. Manufacturing implies creating value by applying useful mental or
physical labor.

 The manufacturing process are collected together to form manufacturing system (MS).

 The production system includes the manufacturing system and services it. Production
system will refer to the total company and will include within it the manufacturing
systems.
Production system (PS)
 a.k.a. production operation  include the following areas:
systems Marketing and Sales Department
 serve and support the Finance
manufacturing processes and
manufacturing system by Accounting Department
providing and transmitting Personnel Department
information, energy,
knowledge, skills and services Research and Development
to the plant areas, to the Design Engineering
company’s vendors and to the
Purchasing Department
customers
Production Planning and Scheduling
Inventory Control
Quality Control
Plant Engineering
Marketing and Sales Department
 Provides information and services  Sales order information is central to
concerning: production planning and control. it
determine how many, how much,
1. Sales forecast of demand
when, and what kinds of products or
2. Sales Order data services must be produced.
3. Customer quality requirements  Quality – concerned with the
4. Customer reliability requirements prevention of defects and the
conformance to specifications at the
5. New products or modifications for same time the product is made or sold.
existing products
 Reliability – concerned with the
6. Customer feedback on products performance of the product or services
7. Customer service (repair or replace over time, while in service with the
defective products) customer.
Finance

 involve management of the  Internal financing includes the review of
company’s assets budgets for operating sections, evaluation
of proposed capital investments for
 Provides information and services
production facilities and preparation of
concerning the following
financial statement.
1. Internal capital financing
 Budgeting – allocation of financial
2. Budgeting resources.
3. Investment analysis  Investment analysis – for future company
growth and expansion; rate of return,
depreciation, sinking funds, payback
periods and the like and the constantly
changing tax structure, tax regulations and
other financial legal matters.
Accounting Department

 Maintains the company’s financial  Cost accounting information
records where money is used to indicates the level of efficiency of
keep score on how the business various departments and the cost
operates. of the products being
manufactured
 Provides information and services
on the following:
1. Cost accounting
2. Special reports
3. Data processing
Personnel

 represent workforces of the company
 provides information and services concerning
1. Recruitment
2. Training
3. Labor Relation
4. Safety
Research and Development (R&D)
 Involves invention or discovery and innovation and their development in terms od
achievable ends, such as new materials, products, processes, tools and technique.
Engineering

 A staff functions in the production system
 Provides information and services on the following
1. Product design engineering
2. Manufacturing engineering
3. Industrial engineering
4. Plant engineering
5. Quality engineering
Procurement and Purchasing

 Involves in the acquisition of specified materials, equipment, services and supplies in
proper quality, in the correct quantities, at the best prices, at the correct time.
Production Planning and Control
 Translates sales forecast and/or order by part number.
 The authority to manufacture the product is translated into master production schedule
that specify the products to be manufactured, the quantity to be produced and the
delivery date to the customer.
Inventory Control
 Reasons for having inventory:
 Governs finished goods, raw
materials, purchased components 1. Fluctuation in demand and/or
and work-in-process within the supply
factory. 2. Protection against process
 The goal is to achieve a balance breakdowns
between too little inventory (with 3. Replacement parts for lost batches
possible stock outs of raw materials) or defective lots
and too much inventory (with
investment and storage space tied 4. Overproduction in anticipation of
up) future demand
5. Protection from defective parts
6. Goods in transport
7. Just in case it is needed
8. Quantity purchasing
 Manufacturing System
 Collection of
operations and
processes used
Materials
to obtain a
desired product
or component Finished
Components Machine Manpower
 The actual Product
conversion of Supplies
input to output
resulting to the
desired product
(value adding INPUT PROCESS OUTPUT
processes)
 Types of Manufacturing System
 job shop - characterized by large varieties of components, general purpose machines, and a
functional layout. This means that machines are collected by function and the parts are routed
around the shop in containers to the various machines. The material on the cart or container is
called the lot.
 Flow shops - characterized by larger build quantities, special purpose machines, less variety, and
more mechanization. Flow shop layouts are typically either continuous or interrupted. If
continuous, they basically run one large- volume complex product in great quantity and nothing
else. If interrupted, the line manufactures large quantities but is periodically “changed over” to
run similar but different components.
 linked- cell manufacturing system - composed of manufacturing cells connected together using
a unique form of inventory and information control.
 project shop - characterized by the immobility of the item being manufactured. The job shop
usually supplies parts and sub assemblies to the project shops in small lots
 continuous process - deals primarily with liquids, gases rather than solids or discrete parts.
Job Shop
Flow Shop
Project Shop
Continuous Process
Linked Cells
Types of Manufacturing System
Characteristics Job Shop Flow Shop Project Shop Continuous Process Linked Cells

Types of machine Flexible, general Single purpose, General purpose, Specialized, High Simple customized
purpose single function mobile, manual technology single cycle
automation
Design of processes Functional or Product flow layout Project or fixed product U-shaped,
process position layout sequenced to flow
for family of parts,
overlapping
Set up time Long, variable, Long and complex variable Rare and expensive Short, frequent, one
frequent touch

Workers Single functioned; One function, low- Specialized, highly Skill level varies multifunctional
highly skilled; one skilled, one worker- skilled
worker –one one machine
machine
Inventories (WIP) Large inventory to Large to provide variable Very small small
provide large buffer storage
variety
Lot sizes Small to medium Large lot Small lot Very large small

Manufacturing lead Long, variable Short, constant time Long, variable lead Very fast, constant Short, constant
time time
 LANGUAGE OF MANUFACTURING
OR PROCESS TECHNOLOGY
 MACHINE or MACHINE TOOL- a specific piece of equipment designed to accomplish specific
processes, often called a machine tool; machine tools link together to make a manufacturing
system.

 JOB (sometimes called a station) - a collection of operations done on machine or a collection of
tasks performed by one worker at one location on the assembly line.

 OPERATION (sometimes called a process)- a specific action or treatment, the collection of which
make up the job of a worker.

 TOOLS or TOOLING- refers to the implements used to hold, cut, shape, or deform the work
materials; called cutting tools if referring to machining; can refer to jigs, and fixtures in workholding
and punches and dies in metal forming.
 Fabricating is the manufacture of a product from pieces such as parts, components or
assemblies.

 Processing is also used to refer to the manufacture of a product by continuous means, or
by a series of continuous operations, for a specific purpose.

**The terms fabricating industries and manufacturing industries are used when referring to
fabricators or manufacturers of large products composed of many parts.
 Roles of Engineer in Manufacturing
 Design Engineer
- better than any other person, should know what the design is to accomplish, what
assumptions can be made about service loads and requirements, what service environment the
product must withstand, and what appearance the final product is to have. It is thus apparent that
design engineers are a vital factor in the manufacturing process, and it is indeed a blessing to the
company if they can design for manufacturing, that is, design the product so that it can be
manufactured and/ or assembled automatically

 Manufacturing Engineers
- select and coordinate specific processes and equipment to be used, or supervise and
manage their use. Some design special tooling that is used so that the standard machines can be
utilized in producing specific products. These engineer must have a broad knowledge of
manufacturing processes and of material behavior so that the desired operations can be done
effectively and efficiently without overloading or damaging machines and without adversely
affecting the materials being processed.
 Industrial or manufacturing engineers
- who design (or layout) factories have the same concerns of the same interrelationship of
design, the properties of the materials that the machines are going to process, and the interaction
of the materials and the machines.

 Materials engineers
- devote their major efforts to developing new and better materials. They, too, must be
concerned with low these materials can be processed and with the effects that the processing will
have on the properties of the materials.
 PRODUCT LIFE CYCLE
1. START- UP - New product or new company, low volume, small
company.
2. RAPID GROWTH - Product becomes standardized and volume
increases rapidly. Company’s ability to meet demand stresses its
capacity.
3. MATURATION - Standard designs emerge. Process development is
very important.
4. COMMODITY - Long- life, standard- of- the- industry type of product
or
5. DECLINE. Product is slowly replaced by improved products
Product Life Cycle Illustration: