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Types & Uses: Welded Joints | Design of Machine Elements - Mechanical Engineering PDF Download

Welded joints and their advantages:

Welding is a very commonly used permanent joining process. Thanks to great advancement in welding technology, it has secured a prominent place in manufacturing machine components. A welded joint has following advantages:
(i) Compared to other type of joints, the welded joint has higher efficiency. An efficiency > 95 % is easily possible.
(ii) Since the added material is minimum, the joint has lighter weight.
(iii) Welded joints have smooth appearances.
(iv) Due to flexibility in the welding procedure, alteration and addition are possible.
(v) It is less expensive.
(vi) Forming a joint in difficult locations is possible through welding. The advantages have made welding suitable for joining components in various machines and structures. Some typically welded machine components are listed below. 

  • Pressure vessels, steel structures.  
  • Flanges welded to shafts and axles. 
  • Crank shafts 
  • Heavy hydraulic turbine shafts 
  • Large gears, pulleys, flywheels 
  • Gear housing  
  • Machine frames and bases
  • Housing and mill-stands.

 

Basic types of welded processes:

Welding can be broadly classified in two groups

1) Liquid state (fusion) welding where heat is added to the base metals until they melt. Added metal (filler material) may also be supplied. Upon cooling strong joint is formed. Depending upon the method of heat addition this process can be further subdivided, namely  

  • Electrical heating: Arc welding

Resistance welding

Induction welding 

 

  • Chemical welding: Gas welding

Thermit welding  

  • Laser welding  
  • Electron beam welding

 

2) Solid state welding:

Here mechanical force is applied until materials deform to plastic state. Bonds are then formed through molecular interaction. Solid state welding may be of various kinds, namely, 

  • Cold welding  
  • Diffusion welding 
  • Hot forging

Descriptions of the individual welding processes are to be found in any standard textbook on welding.

 

Strength of welded joints: 

Adequate care must be taken to enhance strength of the welded joint. It is seen that strength of a welded joint gets affected mainly by the following factors.

(i) Crack initiation: it is possible that cracks form while cooling a melted metal.
(ii) Residual stresses: due to inhomogeneous heating of the base metals, residual stresses may exist upon cooling.
(iii) Metallurgical transformation: in heat affected zone (HAZ) metallurgical properties may change leading to weakening of the joint.
(iv) Defects: of various kinds like incomplete penetration, porosity, slag inclusion which affect the strength of a welded joint.
(v) Stress concentration: abrupt change in the geometry after welding may introduce stress concentration in the structure.

 

Types of welded joints: 

Welded joints are primarily of two kinds

a) Lap or fillet joint: obtained by overlapping the plates and welding their edges. The fillet joints may be single transverse fillet, double transverse fillet or parallel fillet joints (see figure 10.3.1).

Types & Uses: Welded Joints | Design of Machine Elements - Mechanical Engineering

Types & Uses: Welded Joints | Design of Machine Elements - Mechanical Engineering

Types & Uses: Welded Joints | Design of Machine Elements - Mechanical Engineering

 

 

b) Butt joints: formed by placing the plates edge to edge and welding them. Grooves are sometimes cut (for thick plates) on the edges before welding. According to the shape of the grooves, the butt joints may be of different types, e.g., 

  • Square butt joint
  • Single V-butt joint, double V-butt joint 
  • Single U-butt joint, double U-butt joint  
  • Single J-butt joint, double J-butt joint
  • Single bevel-butt joint, double bevel butt joint

 

Types & Uses: Welded Joints | Design of Machine Elements - Mechanical Engineering

There are other types of welded joints, for example, 

  • Corner joint (see figure 10.3.3a) 
  • Edge or seal joint (see figure 10.3.3b) 
  • T-joint (see figure 10.3.3c)

 

Types & Uses: Welded Joints | Design of Machine Elements - Mechanical EngineeringTypes & Uses: Welded Joints | Design of Machine Elements - Mechanical EngineeringTypes & Uses: Welded Joints | Design of Machine Elements - Mechanical Engineering
                         Figure 10.3.3: Other types of welded joints

 

 

Each type of joint has its own symbol. The basic weld symbols are shown in Table-10.3.1.

Types & Uses: Welded Joints | Design of Machine Elements - Mechanical Engineering

After welding is done the surface is properly finished. The contour of the welded joint may be flush, concave or convex and the surface finish may be grinding finish, machining finish or chipping finish. The symbols of the contour and the surface finish are shown in Table-10.3.2.

 

Types & Uses: Welded Joints | Design of Machine Elements - Mechanical Engineering

Welding symbol:

A welding symbol has following basic elements:

1. Reference line
2. Arrow
3. Basic weld symbols (like fillet, butt joints etc.)
4. Dimensions
5. Supplementary symbols
6. Finish symbols
7. Tail
8. Specification processes.

These welding symbols are placed in standard locations (see figure below)

 

Types & Uses: Welded Joints | Design of Machine Elements - Mechanical Engineering

 

Example: If the desired weld is a fillet weld of size 10 mm to be done on each side of Tee joint with convex contour, the weld symbol will be as following

Types & Uses: Welded Joints | Design of Machine Elements - Mechanical Engineering 

The document Types & Uses: Welded Joints | Design of Machine Elements - Mechanical Engineering is a part of the Mechanical Engineering Course Design of Machine Elements.
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FAQs on Types & Uses: Welded Joints - Design of Machine Elements - Mechanical Engineering

1. What are the different types of welded joints used in mechanical engineering?
Ans. There are several types of welded joints used in mechanical engineering, including butt joints, lap joints, T-joints, corner joints, and edge joints. Each type of joint has its own advantages and is suitable for specific applications.
2. What are the advantages of using welded joints in mechanical engineering?
Ans. Welded joints offer several advantages in mechanical engineering, including high strength, cost-effectiveness, and the ability to join different materials. They also provide a permanent and durable connection, ensuring structural integrity in various applications.
3. What are the factors to consider when selecting a welded joint for a mechanical engineering project?
Ans. When selecting a welded joint for a mechanical engineering project, factors such as the required strength, material compatibility, joint accessibility, and welding process should be considered. It is also important to assess the potential for stress concentration and the impact of the joint on the overall design.
4. What are the common welding methods used for creating welded joints in mechanical engineering?
Ans. Some common welding methods used for creating welded joints in mechanical engineering include arc welding (such as shielded metal arc welding and gas metal arc welding), resistance welding (such as spot welding and seam welding), and laser welding. The choice of welding method depends on factors such as the material being welded, joint design, and desired weld quality.
5. What are the applications of welded joints in mechanical engineering?
Ans. Welded joints find a wide range of applications in mechanical engineering, including construction of bridges, buildings, and pipelines. They are also used in automotive manufacturing, aerospace industry, shipbuilding, and fabrication of machinery and equipment. Welded joints are crucial for creating strong and reliable connections in structural components.
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