Material Management PDF - Indian Institute of Technology Roorkee

Summary

These lecture notes cover material management for construction projects. The document explains material provisioning, inventory management techniques, and determining reorder points. The document is from the Indian Institute of Technology Roorkee.

Full Transcript

INDIAN INSTITUTE OF TECHNOLOGY ROORKEE

CEN 411
Construction Planning and Management

Material Management

Prof. Anjaneya Dixit
Room 331A;
[email protected];
+91 133228 5106
Material Management

Materials accounts 40 % of project cost.
Even 5% saving in material cost through efficient management results in large
contribution if profit margins are 5-10 %.

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Material Management

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Material Management

Objectives of Material Management

–Economy in material cost

–Efficient control of inventory

–Ensure uniform flow of material

–Ensure appropriate quality and price

–Maintain cordial relations with the suppliers/customers

–Judicious consumption of materials

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Material Management

When materials arrive, they are:
– Counted
– Inspected
– if necessary, Tested

Too many materials stored on the site can lead to problem of:
– Space allocation
– Weather damage
– Theft

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Steps for Material Provisioning
1. Study contract document to identify items for purchase.
Bid documents, specifications of material
2. Estimate quantities to be purchased
By quantity surveyor from contract drawings for an activity.
IS 10067: 1982 include standard wastage, Cement: 2%, Sand: 10 %
Wastage: inaccuracy in leveling, transportation, breakage etc.,
Material to be provisioned = Theoretical quantity x (100 + standard wastage)/100.
3. Float enquiry to locate the sources of supply.
Quantity, specifications, delivery times
4. Invite quotations from selected vendors
5. Analyze quotations received & vendors prequalification
6. Client or Consultant Approval
7. Negotiation with vendors and final supply
8. Place purchase order and monitor order execution
9. Monitoring material delivery schedule
Conduct pre-transportation inspection
Obtain periodic information on shipment/ transportation status.
Keep documents ready for custom clearing.
Plan in advance for receiving material at site: unloading place, storage arrangement
Persons for inspecting material in quality & quantity and insurance or compensation claims
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Material Inventory

Inventory: stored material, that is used for construction.
Inventory management -- determine how much to order? When to order?
Purpose:
– Smooth-out variations in operation performances
– Avoid stock out or shortage
– Safeguard against price changes and inflation
– Take advantage of quantity discounts

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Material Inventory

Inventory Cost, C =
Holding Cost
Includes insurance, storage, investment, pilferage, etc.
= Average stock x Holding cost per unit rate (Ci)
= Quantity per order/2 x Holding cost per unit rate (Ci)
where quantity per order= Total Consumption(A)/Number of orders (N)

Ordering Cost
Includes material inspection, follow ups etc.
= Cost per order (Co) x number of orders (N)

𝑪𝑪𝒊𝒊 𝑨𝑨 Inventory Cost has
𝑪𝑪 = + 𝑪𝑪𝑶𝑶 𝑵𝑵 a variation with ‘N’
𝟐𝟐𝟐𝟐
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Example Problem
Total Consumption (A) = 480 tons over 6 months
Unit rate = P= Rs. 80/ton
Holding Cost Ci = 25 % of unit rate
Ordering Cost Co= Rs. 50/order
Calculate the Number of Orders in 6 months for least inventory Cost
No. of Quantity Q/2 Holding Cost Ordering Inventory
orders per order Ci = 0.25P.Q/2 Cost, Co.N Cost, C
(N) (Q)
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Example Problem
Total Consumption (A) = 480 tons over 6 months
Unit rate = P= Rs. 80/ton
Holding Cost Ci = 25 % of unit rate
Ordering Cost Co= Rs. 50/order
Calculate the Number of Orders in 6 months for least inventory Cost
No. of Quantity Q/2 Holding Cost Ordering Inventory
orders per order Ci = 0.25P.Q/2 Cost Co.N Cost
(N) (Q)
4 120 60 0.25 x 80 x 60= 1200

6 80 40 0.25 x 80 x 40= 800

8 60 30 0.25 x 80 x 30= 600

10 48 24 0.25 x 80 x 24 = 480

12 40 20 0.25 x 80 x 20 = 400

16 30 15 0.25 x 80 x 15 = 300

20 24 12 0.25 x 80 x 12 = 240

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Example Problem
Total Consumption (A) = 480 tons over 6 months
Unit rate = P= Rs. 80/ton
Holding Cost Ci = 25 % of unit rate
Ordering Cost Co= Rs. 50/order
Calculate the Number of Orders in 6 months for least inventory Cost
No. of Quantity Q/2 Holding Cost Ordering Inventory
orders per order Ci = 0.25P.Q/2 Cost Co.N Cost
(N) (Q)
4 120 60 0.25 x 80 x 60= 1200 200 1400
6 80 40 0.25 x 80 x 40= 800 300 1100
8 60 30 0.25 x 80 x 30= 600 400 1000
10 48 24 0.25 x 80 x 24 = 480 500 980
12 40 20 0.25 x 80 x 20 = 400 600 1000
16 30 15 0.25 x 80 x 15 = 300 800 1100
20 24 12 0.25 x 80 x 12 = 240 1000 1240
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Minimizing Inventory Cost

For the inventory cost to be minimum 𝑪𝑪𝒊𝒊 𝑨𝑨
𝒅𝒅𝒅𝒅 𝑪𝑪 = + 𝑪𝑪𝑶𝑶 𝑵𝑵
= 𝟎𝟎 𝟐𝟐𝟐𝟐
𝒅𝒅𝒅𝒅
𝒅𝒅𝒅𝒅 𝑪𝑪𝒊𝒊 𝑨𝑨
= 𝑪𝑪𝑶𝑶 − 𝟐𝟐
= 𝟎𝟎
𝒅𝒅𝒅𝒅 𝟐𝟐𝑵𝑵

𝑪𝑪𝒊𝒊 𝑨𝑨
𝑵𝑵 = 𝑪𝑪 = 𝟐𝟐𝑪𝑪𝑶𝑶 𝑪𝑪𝒊𝒊 𝑨𝑨
𝟐𝟐𝑪𝑪𝑶𝑶
There exists an ‘Economic’ number of orders
The corresponding ‘Economic’ Order Quantity = Total Material
Requirement/Economic number of orders
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Example Problem

Total consumption of sand = 6000 t
Ordering Cost = Rs. 40 /order
Unit Rate of sand = Rs. 100/ton
Inventory carrying or Holding cost = 20 % of unit rate
Find Economic Number of Orders, Order Quantity & Inventory cost
Ordering cost, 𝐶𝐶𝑂𝑂 = 40
Holding cost, 𝐶𝐶𝑖𝑖 = 0.2 × 100 = 20
Total Consumption, 𝐴𝐴 = 6000
𝐶𝐶𝑖𝑖 𝐴𝐴 20×6000
Economic number of orders, 𝑁𝑁 = = = 38.73~38
2𝐶𝐶𝑂𝑂 2×80

𝐴𝐴 6000
Economic order quantity = = = 157.9 tons
𝑁𝑁 38

Inventory Cost, 𝐶𝐶 = 2𝐶𝐶𝑂𝑂 𝐶𝐶𝑖𝑖 𝐴𝐴 = 2 × 20 × 40 × 6000 = 𝑅𝑅𝑅𝑅. 3098

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Safety Stock, Lead Time & Reorder level

Safety Stock: The material stock maintained to handle
–Excess consumption during procurement lead time.
–Delivery delays by vendors.
Lead time:
–Time required for procurement of a material
–It is the time gap between point of initiation of procurement process to receipt
of ordered materials at stores.
Reorder Point/level:
–Point/level at which the stock is ordered to ensure its availability in future.

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Inventory Replenishment Model

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Reorder Point

Reorder point is the stock level of a material below which procurement process
for that material needs to be initiated in order.

Reorder Point = (A x B) + C
A – Average daily consumption
Number of units (of material) consumed per day.

B – Procurement lead time
Time required for procurement of a material. It is the time gap between point of
initiation of procurement process to receipt of ordered materials at stores.

C – Safety stock (equals to ‘average daily consumption x safety time’)
Buffer stock to be maintained at stores in order to handle excess consumption
during procurement lead time and or delivery delays.

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Example Problem

In the last one year 3650 Nos of 3-Phase 25KVA DTR were drawn or
consumed. Based on the previous procurement experience, on an average
of 100 day is required to procure it.
Considering field emergencies (based on previous experience) and
delivery delays encountered during the previous procurement cycles, a
safety stock equal to 20 days consumption is required.
Calculate the Reorder Point for the 3-Phase 25KVA DTR

A – Average daily consumption = 3650/365 = 10 Nos
B – Procurement lead time = 100 days
C – Safety stock = 10*20 = 200 Nos
Reorder point = (A x B) + C = 10*100 + 200 = 1200 Nos

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Example Problem

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