A process is a set of methods and technologies used in the production of a good or service

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Five Types Of Manufacturing Processes:
Repetitive Manufacturing
Discrete Manufacturing
Job Shop Manufacturing
Continuous Process Manufacturing
Batch Process Manufacturing
Managing the Manufacturing Process

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A manufacturing process uses manufacturing methods, operations scheduling software, machinery, and labor to transform raw material into the finished product. Broadly, there are five manufacturing processes, and most businesses that create products will fall into one of these five categories.

However, how that works for each business will differ slightly, based on their individual products, the business' ethos, and the resources and facilities they have available.

Five Types Of Manufacturing Processes:

Repetitive Manufacturing

Basic manufacturing that creates the same product on an assembly line is engaged in the repetitive manufacturing process. These types of rapid manufacturing operations will produce the same or very similar products en masse 24/7.

The manufacturing industries that utilize this type of production process including:

Automotive
Electronics
Semiconductor
Durable consumer goods

These mass production industries are ideal for repetitive manufacturing because the consumer demand for the finished product is stable and predictable. The assembly line will remain fairly constant, with few changes as one product is manufactured over a period of time.

Master plans are created on a period of time and quantity basis. Repetitive manufacturing is often used for make-to-stock production or in a high volume, sales order-oriented environment like automotive. Robots and other automated high-volume manufacturing equipment are used to increase throughput and decrease manufacturing costs in these types of factories.

Discrete Manufacturing

Discrete manufacturing is the cousin of repetitive manufacturing. It too runs on production lines, but the finished goods that are created during this process often vary considerably.

When switching between different product models, the assembly line configuration must often be changed. In manufacturing facilities, this is known as a changeover and carries setup cost in the form of time, labor, and resources.

For example, in the computer industry, technology not only develops at a constantly rapid rate but the customers demand mass customization. The manufacturing process for producing newer computers and laptops will require modifications to the assembly line to produce and assemble orders that call for the latest electronic components.

Job Shop Manufacturing

In the job shop manufacturing process, production areas, like workstations and workshops, are used instead of an assembly line. Each worker may add something to the product when it passes through their station, before it is moved on to another, and until eventually the final product is finished. This method of manufacturing is ideal for custom manufacturing because it tends to be slower and produces a low volume of highly customized products.

Take for example a job shop that builds custom cabinets. Workers will be stationed at their workstations, and they will add to the cabinet as it is brought to them. One may be in charge of sawing the lumber, another of applying resin, others in charge of polishing the varnish, and others still in charge of assembly.

Keep in mind that job shop manufacturing is not just for low technology products. This process is also used in the advanced manufacturing of fighter jets and rockets for the aerospace and defense industry. These products are produced by highly trained professionals who employ advanced manufacturing techniques and place a strong focus on quality control to ensure a high-quality build.

Continuous Process Manufacturing

Continuous process manufacturing is very similar to repetitive manufacturing because it runs 24/7, creates the same or similar products repeatedly, and creates larger order quantities. The key difference here is that the raw materials used are gases, liquids, powders, and slurries, instead of solid-state components.

It works almost exactly the same as repetitive manufacturing besides the difference in raw materials. An example of this in practice might be a pharmaceutical company that produces painkillers in larger quantities.

Traditional industrial manufacturing industries that widely utilize continuous processes include:

Pharmaceutics
Chemicals/industrial gases
Fertilizers
Power stations
Oil refining
Paper
Furnace - Steel, Iron, and Alloys

Batch Process Manufacturing

The batch process of manufacture differs quite a bit from continuous process manufacture and is more similar to discrete and job shop manufacturing. The number of batches that are created will be enough to serve a particular customer's needs. In-between batches, the equipment will be cleaned and left alone until another batch is required. The raw materials used are more similar to continuous process manufacturing as they are liquids, gases, powders, and slurries too.

A prominent example of this is a sauce manufacturer. They may be capable of creating many sauces - BBQ, ketchup, mayonnaise - but a customer's order may only require one of them. Whilst they make one batch of ketchup for a customer to a specific quantity, the mayonnaise and other sauces won't be in production - instead, the machines will be cleaned and left until it is time to create another batch of that sauce.

Managing the Manufacturing Process

The manufacturing process you choose is dependent on your manufacturing industry and the type of product you are looking to create. Sometimes a hybrid manufacturing approach that combines multiple manufacturing processes can be useful if you want to create an assortment of products.

Once you choose the right manufacturing process, it is important to leverage the right manufacturing systems and investing in the right manufacturing technology to ensure process control. Your ERP and MES systems are a step in the right direction, but they lack the planning and scheduling capabilities required to become a truly lean manufacturing organization.

For 20 years Optessa has been helping Fortune 100 supply chain leaders optimize their manufacturing processes with the help of advanced planning and scheduling manufacturing technologies. Please contact us for a free demo of our manufacturing software.

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production system, any of the methods used in industry to create goods and services from various resources.

All production systems, when viewed at the most abstract level, might be said to be “transformation processes”—processes that transform resources into useful goods and services. The transformation process typically uses common resources such as labour, capital (for machinery and equipment, materials, etc.), and space (land, buildings, etc.) to effect a change. Economists call these resources the “factors of production” and usually refer to them as labour, capital, and land. Production managers have referred to them as the “five M’s”: men, machines, methods, materials, and money.

When viewed as a process, a production system may be further characterized by flows (channels of movement) in the process: both the physical flow of materials, work in the intermediate stages of manufacture (work in process), and finished goods; and the flow of information and the inevitable paperwork that carry and accompany the physical flow. The physical flows are subject to the constraints of the capacity of the production system, which also limits the system’s ability to meet output expectations. Similarly, the capacity of the information-handling channel of the production system may also be an important measure of a system’s output. The management of information flows, or the planning and control of the system to achieve acceptable outputs, is an important task of the production manager.

While the capacity of the system is the major factor in determining whether output expectations can be met, the additional consideration of quality must also be seen as a limiting factor. The quality of a product, measured against some objective standard, includes appearance, performance characteristics, durability, serviceability, and other physical characteristics; timeliness of delivery; cost; appropriateness of documentation and supporting materials; and so on. It is an important part of the definition of a system.

Machinery and Manufacturing

From drilling holes and moving freight to car engines and their production, tinker with these questions and test your knowledge of machinery and manufacturing in this quiz.

bread

There are three common types of basic production systems: the batch system, the continuous system, and the project system. In the batch system, general-purpose equipment and methods are used to produce small quantities of output (goods or services) with specifications that vary greatly from one batch to the next. A given quantity of a product is moved as a batch through one or more steps, and the total volume emerges simultaneously at the end of the production cycle. Examples include systems for producing specialized machine tools or heavy-duty construction equipment, specialty chemicals, and processed food products, or, in the service sector, the system for processing claims in a large insurance company. Batch production systems are often referred to as job shops.

assembly line

In the continuous system, items to be processed flow through a series of steps, or operations, that are common to most other products being processed. Since large volumes of throughput are expected, specially designed equipment and methods are often used so that lower production costs can be achieved. Frequently the tasks handled by workers are divided into relatively small segments that can be quickly mastered and efficiently performed. Examples include systems for assembling automobile engines and automobiles themselves, as well as other consumer products such as televisions, washing machines, and personal computers. Continuous production systems are often referred to as assembly systems or assembly line systems and, as noted below, are common in mass production operations.

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The two types of systems mentioned thus far are often found in combination. In the production of integrated circuits for electronic equipment, for example, thousands of circuits are processed as a batch on several large slices of silicon crystal through dozens, or even hundreds, of processing steps. The tiny circuits, each only a few millimetres on a side, are then separated and individually assembled with other circuit elements on a continuous line to produce the final product.

space shuttle Atlantis

The third type of production system is the project, or “one-shot” system. For a single, one-of-a-kind product, for example, a building, a ship, or the prototype of a product such as an airplane or a large computer, resources are brought together only once. Because of the singular nature of project systems, special methods of management have been developed to contain the costs of production within reasonable levels.