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1. What is Manufacturing?
2. Materials in Manufacturing
3. Manufacturing Processes
4. Production Systems
5. Manufacturing Economics
6. Recent Developments in Manufacturing
©2012 John Wiley & Sons, Inc. M P Groover, Fundamentals of Modern Manufacturing 5/e
INTRODUCTION AND OVERVIEW OF MANUFACTURING
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Manufacturing is Important
Making things has been an essential human activity since before recorded history
Today, the term manufacturing is used for this activity
Manufacturing is important to the United States and most other developed and developing nations Technologically Economically
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Technological Importance
Technology - the application of science to provide society and its members with those things that are needed or desired Technology affects our daily lives, directly and
indirectly, in many ways Technology provides the products that help our
society and its members live better
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Technological Importance
What do these products have in common? They are all manufactured They would not be available to our society if they
could not be manufactured Manufacturing is the essential factor that makes
technology possible
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Economic Importance
U.S. EconomySector: %GDPAgriculture and natural resources 5Construction and public utilities 5Manufacturing 12Service industries* 78
100* includes retail, transportation, banking,
communication, education, and government
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What is Manufacturing?
The word manufacture is derived from two Latin words manus (hand) and factus (make); the combination means “made by hand” “Made by hand” described the fabrication methods
that were used when the English word “manufacture” was first coined around 1567 A.D.
Most modern manufacturing operations are accomplished by mechanized and automated equipment that is supervised by human workers
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Manufacturing - Technological
Application of physical and chemical processes to alter the geometry, properties, and/or appearance of a starting material to make parts or products
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Manufacturing - Economic
Transformation of materials into items of greater value by one or more processing and/or assembly operations
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Manufacturing Example: Artificial Heart Valve
©2012 John Wiley & Sons, Inc. M P Groover, Fundamentals of Modern Manufacturing 5/e
Left: Heart valve Right: Starting titanium billet
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©2012 John Wiley & Sons, Inc. M P Groover, Fundamentals of Modern Manufacturing 5/e
Manufacturing Industries
Industry consists of enterprises and organizations that produce or supply goods and services
Industries can be classified as:
1. Primary industries - cultivate and exploit natural resources, e.g., agriculture, mining
2. Secondary industries - take the outputs of primary industries and convert them into consumer and capital goods
3. Tertiary industries - service sector
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Specific Industries in Each Category
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Manufacturing Industries - continued
Secondary industries include manufacturing, construction, and electric power generation
Manufacturing includes several industries whose products are not covered in this book; e.g., apparel, beverages, chemicals, and food processing
For our purposes, manufacturing means production of hardware Nuts and bolts, forgings, cars, airplanes, digital
computers, plastic parts, and ceramic products
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Manufactured Products
Final products divide into two major classes:1. Consumer goods - products purchased directly by
consumers Cars, clothes, TVs, tennis rackets
2. Capital goods - those purchased by companies to produce goods and/or provide services Aircraft, computers, communication
equipment, medical apparatus, trucks, machine tools, construction equipment
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Production Quantity Q
The quantity of products Q made by a factory has an important influence on the way its people, facilities, and procedures are organized
Annual quantities can be classified into three ranges:
Production range Annual Quantity Q
Low production 1 to 100 units
Medium production 100 to 10,000 units
High production 10,000 to millions of units
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Product Variety P
Product variety P refers to different product types or models produced in the plant
Different products have different features They are intended for different markets Some have more parts than others
The number of different product types made each year in a factory can be counted
When the number of product types made in the factory is high, this indicates high product variety
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P vs Q in Factory Operations
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More About Product Variety
Although P is quantitative, it is much less exact than Q because details on how much the designs differ is not captured simply by the number of different designs
Soft product variety - small differences between products, e.g., between car models made on the same production line, with many common parts
Hard product variety - products differ substantially, e.g., between a small car and a large truck, with few common parts (if any)
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Manufacturing Capability
A manufacturing plant consists of processes and systems (and people) to transform a certain limited range of materials into products of increased value
The three building blocks ‑ materials, processes, and systems ‑ are the subject of modern manufacturing
Manufacturing capability includes:
1. Technological processing capability
2. Physical product limitations
3. Production capacity
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1. Technological Processing Capability
The set of available manufacturing processes in the plant (or company)
Certain manufacturing processes are suited to certain materials, so by specializing in certain processes, the plant is also specializing in certain materials
Includes not only the physical processes, but also the expertise of the plant personnel A machine shop cannot roll steel A steel mill cannot build cars
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2. Physical Product Limitations
Given a plant with a certain set of processes, there are size and weight limitations on the parts or products that can be made in the plant
Product size and weight affect: Production equipment Material handling equipment
Production, material handling equipment, and plant size must be planned for products that lie within a certain size and weight range
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3. Production Capacity
Defined as the maximum quantity that a plant can produce in a given time period (e.g., month or year) under assumed operating conditions Operating conditions refer to number of shifts
per week, hours per shift, direct labor manning levels in the plant, and so on
Usually measured in terms of output units, e.g., tons of steel or number of cars produced
Also called plant capacity
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Materials in Manufacturing
©2012 John Wiley & Sons, Inc. M P Groover, Fundamentals of Modern Manufacturing 5/e
Most engineering materials can be classified into one of three basic categories:
1. Metals
2. Ceramics
3. Polymers Their chemistries are different, and their mechanical and
physical properties are different In addition, there is a fourth category:
4. Composites
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Classification of engineering materials
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1. Metals
Usually alloys, which are composed of two or more elements, at least one of which is metallic. Two basic groups:
1. Ferrous metals - based on iron, comprises about 75% of metal tonnage in the world: Steel and cast iron
2. Nonferrous metals - all other metallic elements and their alloys: Aluminum, copper, nickel, silver, tin, etc.
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2. Ceramics
Compounds containing metallic (or semi-metallic) and nonmetallic elements. Typical nonmetallic elements are oxygen, nitrogen,
and carbon For processing, ceramics divide into:
1. Crystalline ceramics – includes traditional ceramics, such as clay, and modern ceramics, such as alumina (Al2O3)
2. Glasses – mostly based on silica (SiO2)
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3. Polymers
Compound formed of repeating structural units called mers, whose atoms share electrons to form very large molecules. Three categories:
1. Thermoplastic polymers - can be subjected to multiple heating and cooling cycles without altering molecular structure
2. Thermosetting polymers - molecules chemically transform into a rigid structure – cannot reheat
3. Elastomers - shows significant elastic behavior
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4. Composites
Material consisting of two or more phases that are processed separately and then bonded together to achieve properties superior to its constituents Phase - homogeneous material, such as grains of
identical unit cell structure in a solid metal Usual structure consists of particles or fibers of
one phase mixed in a second phase Properties depend on components, physical
shapes of components, and the way they are combined to form the final material
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Manufacturing Processes:Two Basic Types
1. Processing operations - transform a work material from one state of completion to a more advanced state
Operations that change the geometry, properties, or appearance of the starting material
2. Assembly operations - join two or more components to create a new entity
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Classification of Manufacturing Processes
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Processing Operations
Alters a material’s shape, physical properties, or appearance in order to add value
Three categories of processing operations:
1. Shaping operations - alter the geometry of the starting work material
2. Property‑enhancing operations - improve physical properties without changing shape
3. Surface processing operations - clean, treat, coat, or deposit material on surface of work
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Four Categories of Shaping Processes
1. Solidification processes - starting material is a heated liquid or semifluid
2. Particulate processing - starting material consists of powders
3. Deformation processes - starting material is a ductile solid (commonly metal)
4. Material removal processes - starting material is a ductile or brittle solid
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Solidification Processes
Starting material is heated sufficiently to transform it into a liquid or highly plastic state
(1) Casting process and (2) casting product
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Particulate Processing
(1) Starting materials are metal or ceramic powders, which are (2) pressed and (3) sintered
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Deformation Processes
Starting workpart is shaped by application of forces that exceed the yield strength of the material Examples: (a) forging and (b) extrusion
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Material Removal Processes
Excess material removed from the starting piece so what remains is the desired geometry Examples: (a) turning, (b) drilling, and (c) milling
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Waste in Shaping Processes
It is desirable to minimize waste in part shaping Material removal processes are wasteful in the unit
operations, but molding and particulate processing operations waste little material
Terminology for minimum waste processes: Net shape processes - little or no waste of the
starting material and no machining is required Near net shape processes - when minimum
machining is required
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Property‑Enhancing Processes
Processes that improve mechanical or physical properties of work material
Examples: Heat treatment of metals and glasses Sintering of powdered metals and ceramics
Part shape is not altered, except unintentionally Example: unintentional warping of a heat treated
part
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Surface Processing Operations
Cleaning - chemical and mechanical processes to remove dirt, oil, and other surface contaminants
Surface treatments - mechanical working such as sand blasting, and physical processes like diffusion
Coating and thin film deposition - coating exterior surface of the workpart
Examples: Electroplating Painting
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Assembly Operations
Two or more separate parts are joined to form a new entity
Types of assembly operations:
1. Joining processes – create a permanent joint Welding, brazing, soldering, adhesive bonding
2. Mechanical assembly – fastening by mechanical methods Threaded fasteners (screws, bolts and nuts);
press fitting, expansion fits
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Production Machines and Tooling
Manufacturing operations are accomplished using machinery and tooling (and people)
Types of production machines: Machine tools - power-driven machines used to
operate cutting tools previously operated manually Other production equipment:
Presses Forge hammers, Plastic injection molding machines
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Production Systems
People, equipment, and procedures used for the materials and processes that constitute a firm's manufacturing operations
A manufacturing firm must have systems and procedures to efficiently accomplish its production
Two categories of production systems: Production facilities Manufacturing support systems
People make the systems work
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Model of the Production System
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Production Facilities
The factory, production equipment, and material handling systems
Includes the plant layout Equipment usually organized into logical groupings,
called manufacturing systems Examples:
Automated production line Machine cell consisting of three machine tools
Production facilities "touch" the product
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Facilities vs Product Quantities
A company designs its manufacturing systems and organizes its factories to serve the particular mission of each plant
Certain types of production facilities are recognized as most appropriate for a given type of manufacturing:
1. Low production – 1 to 100
2. Medium production – 100 to 10,000
3. High production – 10,000 to >1,000,000
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Low Production
Job shop is the term used for this type of production facility
A job shop makes low quantities of specialized and customized products Products are typically complex, e.g., space
capsules, prototype aircraft, special machinery Equipment in a job shop is general purpose Labor force is highly skilled Designed for maximum flexibility
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Fixed-Position Plant Layout
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Medium Production
Two different types of facility, depending on product variety: Batch production
Suited to medium and hard product variety Setups required between batches
Cellular manufacturing Suited to soft product variety Worker cells organized to process parts without
setups between different part styles
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Process Plant Layout
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Cellular Plant Layout
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High Production
Often referred to as mass production High demand for product Manufacturing system dedicated to the
production of that product Two categories of mass production:
1. Quantity production
2. Flow line production
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Quantity Production
Mass production of single parts on single machine or small numbers of machines Typically involves standard machines equipped
with special tooling Equipment is dedicated full-time to the production
of one part or product type Typical layouts used in quantity production are
process layout and cellular layout
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Flow Line Production
Multiple machines or workstations arranged in sequence, as in a production line Product is complex - requires multiple processing
and/or assembly operations Work units are physically moved through the
sequence to complete the product Workstations and equipment are designed
specifically for the product to maximize efficiency
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Product Plant Layout
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Manufacturing Support Systems
A company must organize itself to design the processes and equipment, plan and control production, and satisfy product quality requirements Accomplished by manufacturing support systems
The people and procedures by which a company manages its production operations
Typical departments: Manufacturing engineering, Production
planning and control, Quality control
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Typical Cost Breakdown for a Manufactured Product
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Recent Developments in Manufacturing
Microelectronics Computerization in manufacturing Flexible manufacturing Microfabrication and Nanotechnology Lean production and Six Sigma Globalization and outsourcing Environmentally conscious manufacturing
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Microelectronics
Electronic devices that are fabricated on a microscopic scale: Integrated circuits (ICs)
Today’s fabrication technologies permit billions of components to be included in a single IC
A large proportion of the products manufactured today are based on microelectronics technology About 2/3 of the products in Table 1.1 are either
electronics products or their function and operation depend on electronics
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Computerization of Manufacturing
Direct Numerical Control (DNC) was one of the first applications of computers in manufacturing (1960s) Mainframe computer remotely controlling multiple
machine tools Enabled by advances in microelectronics, the cost of
computers and data processing has been reduced, leading to the widespread use of personal computers To control individual production machines To manage the entire enterprise
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Flexible Manufacturing
Although mass production is widely used throughout the world, computerization has enabled the development of manufacturing systems that can cope with product variety
Examples: Cellular manufacturing Mixed-model assembly lines Flexible manufacturing systems
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Microfabrication and Nanotechnology
Microfabrication Processes that make parts and products whose
feature sizes are in the micron range (10-6 m) Examples: Ink-jet printing heads, compact disks,
microsensors used in automobiles Nanotechnology
Materials and products whose feature sizes are in the nanometer range (10-9 m)
Examples: Coatings for catalytic converters, flat screen TV monitors
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Lean Production and Six Sigma
Lean production Doing more work with fewer resources, yet
achieving higher quality in the final product Underlying objective: elimination of waste in
manufacturing Six Sigma
Quality-focused program that utilizes worker teams to accomplish projects aimed at improving an organization’s organizational performance
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Globalization
The recognition that we have an international economy in which barriers once established by national boundaries have been reduced This has enabled the freer flow of goods and
services, capital, technology, and people among regions and countries
Once underdeveloped countries such as China, India, and Mexico have now developed their manufacturing infrastructures and technologies to become important producers in the global economy
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Outsourcing
Use of outside contractors to perform work that was traditionally accomplished in-house
Local outsourcing Jobs remain in the U.S.
Outsourcing to foreign countries Offshore outsourcing - production in China and
other overseas locations Near-shore outsourcing - production in Canada,
Mexico, and Central America
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Environmentally Conscious Manufacturing
Determining the most efficient use of materials and natural resources in production, and minimizing the negative consequences on the environment
Associated terms: green manufacturing, cleaner production, sustainable manufacturing
Basic approaches:1. Design products that minimize environmental
impact2. Design processes that are environmentally
friendly
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Examples
1 (A) A company invests $750,000 in a piece of production equipment. The cost to install the equipment in the plant = $25,000. The anticipated life of the machine = 12 years. The machine will be used eight hours per shift, five shifts per week, 50 weeks per year. Applicable overhead rate = 18%. Assume availability = 100%. Determine the equipment cost rate if (a) the plant operates one shift per day and (b) the plant operates three shifts per day.
Solution: (a) For a one-shift operation, hours of operation per year H = 50(1)(5)(8) = 2000 hr/yr. Using Eq. (1.8), Ceq = (750,000 + 25,000)(1.18)/(60 x 12 x 2000) = $0.635/min = $38.10/hr
(b) For a three-shift operation, hours of operation per year H = 50(3)(5)(8) = 6000 hr/yr.
Ceq = (750,000 + 25,000)(1.18)/(60 x 12 x 6000) = $0.212/min = $12.70/hr
Note the significant advantage the company has if it runs three shifts per day rather than one shift.
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Example 2
1 A stamping press produces sheet-metal stampings in batches. The press is operated by a worker whose labor rate = $15.00/hr and applicable labor overhead rate = 42%. Cost rate of the press = $22.50/hr and applicable equipment overhead rate = 20%. In one job of interest, batch size = 400 stampings, and the time to set up the die in the press takes 75 min. The die cost $40,000 and is expected to last for 200,000 stampings. Each cycle in the operation, the starting blanks of sheet metal are manually loaded into the press, which takes 42 sec. The actual press stroke takes only 8 sec. Cost of the starting blanks = $0.43/pc. The press operates 250 days per year, 7.5 hours per day, but the operator is paid for 8 hours per day. Assume availability = 100% and scrap rate = 0. Determine (a) cycle time, (b) average production rate with and without setup time included, and (c) cost per stamping produced.
Solution: (a) Cycle time Tc = 42 + 8 = 50 sec = 0.833 min
(b) Including setup time, Tp = 75/400 + 0.833 = 1.021 min
Rp = 60/1.021 = 58.78 pc/hr
Excluding setup time, Rc = 60/0.833 = 72.03 pc/hr
(c) Equipment cost rate Ceq = 22.50(1.20)/60 = $0.45/min.
Die cost per piece Ct = 40,000/200,000 = $0.20/pc
Labor cost rate CL = 15.00(1.42)/60 = $0.355/min
This labor cost should be adjusted for the fact that although the press operates 7.5 hr/day, the operator is paid for 8 hr. CL = 0.355(8/7.5) = $0.379
Finally, cost per stamping Cpc = 0.43 + (0.379 + 0.45)(1.021) + 0.20 = $1.48/pc
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Example 3
1 (A) During a particular 40-hour week of an automated production operation, 336 acceptable (non-defective) parts and 22 defective parts were produced. The operation cycle consists of a processing time of 5.73 min, and a part handling time of 0.38 min. Every 60 parts, a tool change is performed, and this takes 7.2 min. The machine experienced several breakdowns during the week. Determine (a) hourly production rate of acceptable parts, (b) scrap rate, and (c) availability (proportion uptime) of the machine during this week.
Solution: (a) Production rate of acceptable parts Rp = 335/40 = 8.40 pc/hr
(b) Total parts processed during the week Qo = 336 + 22 = 358 pc
Scrap rate q = 22/358 = 0.0615 = 6.15% (c) Cycle time of the unit operation Tc = 5.73 + 0.38 + 7.2/60 = 6.23 min
Total uptime during the week = 358(6.23) = 2230.34 min = 37.17 hr Proportion uptime A = 37.17/40 = 0.929 = 92.9%