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Design Strength - Welded Joints, Strength of Materials | Strength of Material Notes - Agricultural Engg - Agricultural Engineering PDF Download

Design Strength

28.1.1 Butt Joints

Butt joints generally fail in tension.

Module 4 Lesson 28 Fig.28.1

Fig.28.1.

The design strength of butt joint in tension is,

\[{T_d}={\sigma _t}{l_e}{t_e}\]

where,

\[{t_e}={\rm{effective throat dimension of the weld}}\]

\[{l_e}={\rm{effective length of the weld}}\]

28.1.2 Fillet Joints

Fillet joints generally fail in shear.

Fig. 28.2.

The design strength of fillet joint in shear is,

\[{V_d}={\sigma _S}{l_e}{t_e}\]

where,

\[{\sigma _S}={\rm{ allowable shear stress of the weld}}\]

\[{t_e}={\rm{effective throat dimension of the weld}}\]

\[{l_e}={\rm{effective length of the weld}}\]

28.1.3 Circular fillet weld subjected to torsion

Fig. 28.3.

Maximum shear stress occurs at the throat area and is given by,

\[{\tau _{\max }}={{T\left( {0.5d + {t_e}} \right)} \over J}\]

where,

\[d={\rm{outer diameter of the shaft }}\]

\[J={\rm{polar moment of area of the throat section}}={\pi\over {32}}\left[ {{{\left( {d + 2{t_e}} \right)}^4} - {d^4}} \right]\]

Now the maximum shear stress \[{\tau _{\max }}\]  should not be more than the allowable shear stress of the weld. Therefore at the limiting case,

\[{\sigma _s}={\tau _{\max }}={{T\left( {0.5d + {t_e}} \right)} \over J}\]

 

Example 1

Find the length of the fillet weld required for the following connection. Both plates are 10mm thick. Assume allowable shear stress of the weld is 70MPa.

Solution

Effective length of the fillet weld \[{l_e}=2l\]

Effective throat dimension \[{t_e}={t \over {\sqrt 2 }}\]              [ t is the thickness of the plate]

Therefore, design strength of the weld,

\[{V_d}={\sigma _S}{l_e}{t_e}=70 \times {10^6} \times 2l \times {{10 \times {{10}^{ - 3}}} \over {\sqrt 2 }}=19.8 \times {10^5}l\]

Equating Vd  with the applied load,

\[19.8 \times {10^5}l = 75 \times {10^3} \Rightarrow 37.87{\rm{ mm}}\]

 

Example 2

Two plates of thickness 16mm and 12mm are to be connected by a groove weld. The joint is subjected to a tensile load of 300kN. Assume allowable tensile stress of the weld is 250MPa. Determine the length of the weld required for the following cases.

(i) Single V groove joint (Figure 28.5a)

(ii) Double V groove joint (Figure 28.5b)

Fig. 28.5.

Solution

(i) case 1

Effective throat dimension \[{t_e}={5 \over 8} \times {\rm{thickness of thinner plate}}={5 \over 8} \times {\rm{12}}=7.5{\rm{ mm}}\]

\[{T_d}={\sigma _t}{l_e}{t_e}\]

\[\Rightarrow 300 \times {10^3} = 250 \times {10^6} \times {l_e} \times 7.5 \times {10^{ - 3}}\]

\[\Rightarrow {l_e}=160{\rm{ mm}}\]


(ii) case 2

Effective throat dimension \[{t_e}={\rm{thickness of thinner plate}}=12{\rm{ mm}}\]

\[{T_d}={\sigma _t}{l_e}{t_e}\]

\[\Rightarrow 300 \times {10^3}=250 \times {10^6} \times {l_e} \times 12 \times {10^{ - 3}}\]

\[\Rightarrow {l_e} = 100{\rm{ mm}}\]

The document Design Strength - Welded Joints, Strength of Materials | Strength of Material Notes - Agricultural Engg - Agricultural Engineering is a part of the Agricultural Engineering Course Strength of Material Notes - Agricultural Engg.
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FAQs on Design Strength - Welded Joints, Strength of Materials - Strength of Material Notes - Agricultural Engg - Agricultural Engineering

1. What is a welded joint?
Ans. A welded joint is a method of joining two or more metal pieces together by melting the edges and allowing them to cool and fuse together, creating a strong bond.
2. What are the advantages of using welded joints in agricultural engineering?
Ans. Welded joints offer several benefits in agricultural engineering, including increased strength and durability, enhanced load-carrying capacity, improved structural integrity, and the ability to withstand harsh environmental conditions.
3. What factors affect the strength of welded joints in agricultural engineering?
Ans. The strength of welded joints in agricultural engineering can be influenced by various factors, such as the type of welding process used, the choice of welding materials, the design of the joint, the welding technique employed, and the level of skill and expertise of the welder.
4. How can the strength of welded joints be tested in agricultural engineering?
Ans. The strength of welded joints in agricultural engineering can be evaluated through destructive testing methods, such as tension tests, bend tests, and impact tests. Non-destructive testing techniques, such as ultrasonic testing and radiographic inspection, can also be employed to assess the integrity and quality of the weld.
5. What are some common challenges faced in achieving strong welded joints in agricultural engineering?
Ans. In agricultural engineering, some common challenges in achieving strong welded joints include proper heat control during the welding process, avoiding weld defects such as porosity or cracks, ensuring proper joint fit-up and alignment, and selecting appropriate welding consumables and parameters for the specific application.
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