What are fabrication techniques?

Fabrication is a technique of manufacturing the desired product with the use of raw materials. It is the combination of small parts to generate a larger product.

It is the involvement of various processes for product manufacturing. There are different fabrication techniques, namely shearing, punching, fastening, welding, machining, and many more.

What are the types of fabrication techniques?

Some of the fabrication techniques include welding, metal stamping, sheet metal fabrication, etc.

The fabrication processes are listed below:

Welding

In this technique, two parts like metal sheets will be combined by applying heat and pressure, and then two metals will be fabricated together after cooling. The joining of two pieces takes place through this process.

Types of welding process

Solid state

  • Cold welding like pressure, explosion, ultrasonic weldings
  • Friction welding
  • Forge welding
  • Diffusion welding

Liquid state

  • Arc welding like flux cored, shielded gas like tungsten inert gas, metal inert gas, plasma arc welding, submerged arc welding.
  • Resistance welding like spot, seam, projection welding.
  • Chemical reaction welding like gas and thermit welding.

Solid or liquid welding

  • Soldering
  • Brazing

The welding can be shown as,

This diagram represents an operator (man) is holding the arc welder instrument, and then the arc is produced at the rail lines and thus welding the frame of rail lines. The operator has put a welding shield on this face to get protected from the arcs.
Welding

Metal Stamping

It includes various processes like punching, coining, blanking, etc. It is similar to the pressing process. It usually transforms sheet metals into different forms with the help of a stamping press. Stamping is a complex type of process which consists of various techniques like blanking, bending, piercing, punching, etc.

Cutting

In this process, the product is usually cut into small pieces. This step is common in most of the fabrication processes. Various cutting machines like die-cutting machines, drill machines, CNC machines, etc. Many cutting tools like hobber, grinding wheel, reamer, planar, shaper, drilling tool, etc.

CNC machining

It is the computer numerical control. In this machining, the pre-programmed software is used for the movement of various tools and machines. The CNC machines run the program for the processes like drilling, milling, grinding etc. There are many CNC machines like lathe machines, electric discharge machines, water jet cutters etc.

Shearing

In this process, the unwanted part of the workpiece is removed. The workpiece is held between two blades for the introduction of a straight cut. The basic types of shearing fabrication techniques are blanking, punching, trimming etc. Shearing tools like electric shears.

Sheet metal fabrication processes

It is a process of forming different metal structures with the help of other manufacturing techniques. The technique includes cutting, welding, stretching, shrinking, finishing. It is process in which the flat sheet metal (steel) are fabricated into large metal structures. The various processes performed on the sheet metal like cutting, bending, punching and assembling.

Rolling

The rolling process is a type of metal forming or fabrication process. In this process, the slabs obtained from ingots will be deformed by applying biaxial compression with the help of same sized rolls. In this type, the deformation of the slabs is due to compression as well as shear. In this process, the mechanical property of the workpiece changes.

The rolling process can be shown as,

In this diagram, the slab is placed in between two rolls. The thickness of the slab is getting reduced. The slab has the initial thickness and the final thickness. The rolling direction is shown in the forward direction.
Rolling Process

Here, H1 is the initial thickness of the slab, H2 is the final thickness of the slab.

The draft in the rolling process can be expressed as,

H=H1-H2

The maximum reduction in one pass can be expressed as,

Hmax=μ2R

Here, μ is the coefficient of friction, R is the radius of the roll.

The bite angle in the cold rolling process can be represented as,

The diagram represents the bite angle in the cold rolling process. The slab is located between two rolls. The coarse grains of the slab is transformed into the elongated grains.
Bite Angle in Rolling Process

The bite angle is represented by α.

The maximum bite angle can be expressed as,

αmax=tan-1μ

Casting

In this method, the molten metal is poured into the mold cavity and then left to solidify to form a required structure.  For casting any structure, various types of pattern structures can be used. The pattern structures like a solid piece, split piece pattern, loose piece pattern, gated pattern, etc. In this process, a high volume of production takes place.

Semi-finished casting products

These are the products obtained in the intermediate casting products. They are three basic types of products namely bloom, ingot, and billets.

Ingots are very large size casting products. Bloom are in rectangular-shaped structures. Billets have same cross-sectional area across their length.

The semi-finished shapes of a product can be shown as,

The diagram represents semi-finished products consisting of three parts. In part (a), the bloom is a square cross-section intermediate casting product converted into C and I-shaped structures. In part (b), ingots are large casting products from which the rectangular slab then thin rectangular sheets, and then coiled structures are obtained. In apart (c), the billets are rectangular shaped and then changed into rectangular bars and cylindrical rods.
Semi-finished casting products

Types of Castings

There are various types of casting processes like sand molding, shell molding, investment molding, injection molding, full molding, centrifugal molding, slush molding, squeeze molding, etc.

Injection molding

Injection molding is the technique in which the plastic molten metal (molted with the help of heat) is poured into the mold and then left for cooling and then solidified it to obtain the required molded parts or the end products.

The injection molding can be shown as,

A systematic diagram represents the powder material being poured into the conical shape structure named hopper. The material moves downward in the cylindrical shape structure by the feeding screws and is then forced through the nozzle into the split type of pattern mould. The cavity consists of ejecting pins to remove the required structure after cooling and solidification of molten material.
Injection Moulding

In this diagram, the cylindrical system consists of heating elements due to which the material is heated. The mould consists of a cooling system for the cooling of molten material, and then it is left for solidification into the mold and then mould is then opened, and the structure is removed with the help of ejector pins.

Common materials used in the fabrication technique

Various materials are used in the fabrication processes. Some are gold, silver, stainless steel, aluminum, copper, iron, magnesium, etc. The most commonly used metal is steel.

Stainless steel is commonly used in the fabrication process, and it involves various methods like cutting, bending to make a large structure. Stainless steel is very easy to cut, weld, and machined. These steel materials can be easily fabricated. Stainless steel has high corrosion resistance properties.

Titanium is a corrosion-resistant alloy that can be used in fabrication techniques.

Prefabrication technique

It is the practice of collecting and assembling various parts of a large structure, and then they are transported to the large structural sites. It is a type of manufacturing of smaller pieces of a large structure. These parts are transportable from one place to another. The pre-made components are manufactured and then assembled for the fabrication of the large structures.

The fabrication technique includes pre-fabricated materials like aluminum steels, concrete, steel frames, modular structures, etc.

Uses of fabrication techniques

The uses of fabrication techniques can be listed below as,

Hardware and tools

  • Hand tool production
  • Nut and bolt manufacturing

Construction

  • Heating, ventilation and air conditioning industries

Manufacturing

  • Boiler manufacturing
  • Metal parts manufacturing
  • Architectural structures manufacturing
  • Spring manufacturing

Daily usable products

Daily usable products like fan, lamps, appliances, lamps, sinks, chairs, fasteners, pots etc.

Common Mistakes

  • Students get confused that the surface finish is also a fabrication process. But actually, the surface finish comes under the machining process.
  • Students sometimes get confused that the heat treatment is a fabrication process. But heat treatment processes are not fabrication processes. Heat treatment involves the improvement of metal properties.
  • Students generally thought that everything could be fabricated easily. But fabrication process is restricted to limited designs of structures. These processes will not be helpful in geometrical shapes and the advanced design of structures.
  • It is a misconception that fabrication results in the production of the products. Metal fabrication does not mean that the product or structure is finalized. It needed machining process, finishing, and painting process for the finalization of any structure.
  • Students get confused that steel is a non-corrosive material. It will never rust easily. But the steel structures are generally susceptible to the corrosion because it forms rust while reacting with oxygen.
  • Another misconception is that fabrication is a hurry or rush process, and less care is needed while operating. But fabrication process needs safety and precautions while performing the process. It takes time, and safety precautions are always required.
  • Common misconception is that less care is needed in welding. But actually, proper care is needed while striking the arc in the arc welding process. Due to misplace of arc position, the metal will damage as a result.
  • One of the misconceptions is that the filler material is not susceptible to corrosion. But actually, they will develop rust while interacting with moist air. And the end product will be defective.
  • Students sometimes get confused that the rails can be welded with the help of friction welding. But they are welded by the thermit welding process.

Context and Applications

The topic fabrication techniques and practices is significant in several professional exams, under graduation courses, graduation, post graduation, PhD level and many more. For example:

  • Bachelor of Technology in Mechanical Engineering
  • Bachelor of Technology in Civil Engineering
  • Master of Technology in Mechanical Engineering
  • Doctor of Philosophy in Mechanical Engineering
  • Bachelor of Technology in Automobile Engineering
  • Doctor of Philosophy in Automobile Engineering
  • Metal fabrication processes
  • Types of Fabrication
  • Fabrication methods
  • Fabrication materials
  • Sheet metal fabrication
  • Manufacturing and fabrication

Practice Problems

Q1: Which of the following is not the type of pattern in the casting process?

  1. Solid piece
  2. Split piece
  3. Loose piece
  4. Spherical piece

Correct option: (d)

Explanation: Spherical piece type of pattern cannot be seen in the casting process.

Q2: Which of the following is correct for the metal forming process like rolling?

  1. Compression and tensile stress
  2. Axial compression
  3. Compression and shear
  4. Bi-axial compression and shear

Correct option: (c)

Explanation: In the metal forming or fabrication process of rolling, the deformation of the slabs is due to compression as well as shear.

Q3: The coefficient of friction between the roll and plate is 0.15. What is the maximum angle of bite in the metal forming process rolling?

  1. 8.02
  2. 8.53
  3. 9.23
  4. 7.50

Correct option: (b)

Explanation: The maximum bite angle in the rolling process is obtained by substituting the value of coefficient of friction between the roll and the plate in the expression for the maximum bite angle as follows:

Q4: The diameter of the copper roll is 600 mm. The friction coefficient between the roll and the steel plate is 0.13. Evaluate the maximum draft in the rolling metal forming process.

  1. 5.07 mm
  2. 6.08 mm
  3. 7.23 mm
  4. 5.59 mm

Correct option: (a)

Explanation: The expression for the maximum draft in the rolling metal forming process is given by

Q5: Which of the following varies with the variation in electrode diameter in the arc welding process?

  1. Arc length
  2. Welding speed
  3. Wire feed speed
  4. Current

Correct option: (d)

Explanation: With the variation in electrode diameter in the arc welding process, the current will vary.

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