Rigid bar ABC is supported by two identical solid bronze [Oy = 331 MPa; E = 105 GPa; a = 22.0 × 10¯6/°C] rods and a single solid steel [Oy = 250 MPa: E = 200 GPa; a = 11.7×106/°C] rod. Bronze rods (1) each have diameters of d₁ = 22 mm and lengths of L₁ = 4.3 m. Steel rod (2) has a length of L₂ = 5.8 m. (a) Calculate the diameter d₂ required for steel rod (2) so that the deflection of joint B is zero for any change in temperature. (b) Using the value of d2 determined in part (a), determine the maximum temperature decrease that is allowable for this assembly if a factor of safety of 2.1 is specified for the normal stress in each rod. Since the temperature is decreasing, the answer should be negative. (1) (1) L₁ A Answer: (a) d₂ = i a (2) B a L2 mm

Rigid bar ABC is supported by two identical solid bronze [σ_Y = 331 MPa; E = 105 GPa; α = 22.0 × 10⁻⁶/°C] rods and a single solid steel [σ_Y = 250 MPa; E = 200 GPa; α = 11.7×10⁻⁶/°C] rod.  Bronze rods (1) each have diameters of d₁ = 22 mm and lengths of L₁ = 4.3 m.  Steel rod (2) has a length of L₂ = 5.8 m. 
(a) Calculate the diameter d₂ required for steel rod (2) so that the deflection of joint B is zero for any change in temperature.
(b) Using the value of d₂ determined in part (a), determine the maximum temperature decrease that is allowable for this assembly if a factor of safety of 2.1 is specified for the normal stress in each rod. Since the temperature is decreasing, the answer should be negative.

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Rigid bar ABC is supported by two identical solid bronze [Oy = 331 MPa; E = 105 GPa; a = 22.0 × 10¯6/°C] rods and a single solid steel [Oy = 250 MPa: E = 200 GPa; a = 11.7×106/°C] rod. Bronze rods (1) each have diameters of d₁ = 22 mm and lengths of L₁ = 4.3 m. Steel rod (2) has a length of L₂ = 5.8 m. (a) Calculate the diameter d₂ required for steel rod (2) so that the deflection of joint B is zero for any change in temperature. (b) Using the value of d2 determined in part (a), determine the maximum temperature decrease that is allowable for this assembly if a factor of safety of 2.1 is specified for the normal stress in each rod. Since the temperature is decreasing, the answer should be negative. (1) (1) L₁ A Answer: (a) d₂= i (b) AT = a (2) B a L2 mm °℃