Required information A solid square rod is cantilevered at one end. The rod is 0.6 m long and supports a completely reversing transverse load at the other end of ±1.7 kN. The material is AISI 1080 hot-rolled steel. If the rod must support this load for 5 x 104 cycles with a design factor of 1.5, what dimension should the square cross section have? Neglect any stress concentrations at the support end. What will the strength of the metal be at 5 x 104 cycles? The strength of the metal at 5 x 104 will be [ MPa.

Required information A solid square rod is cantilevered at one end. The rod is 0.6 m long and supports a completely reversing transverse load at the other end of ±1.7 kN. The material is AISI 1080 hot-rolled steel. If the rod must support this load for 5 x 104 cycles with a design factor of 1.5, what dimension should the square cross section have? Neglect any stress concentrations at the support end. What will the strength of the metal be at 5 x 104 cycles? The strength of the metal at 5 x 104 will be [ MPa.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

See similar textbooks

Related questions

Q: A tie bar made of mild steel of tensile strength 462 MN/m2 is to carry a tensile load of 11.12 kN,…

A: GivenTensile strength of mild steel = 462 MN/mTensile load on the tie bar = 11.12 kNFactor of safety…

Q: The column AB is connected to the frame through pin-joints as shown in Figure 1. There exists a…

A: Given G = 40 KN/m Q = (LL) = 20 KN/m d=depth= 198 mm bf = flang width = 99 mm tf = flang…

Q: Suppose a ball bearing under a given load F1 has a life of L1 = 334 kcycles. Further suppose that…

Q: a. Two brass rods used as compression members, each of 3-m effective length with pin end, have the…

A: Given:Effective length of the rods, Le=3 mOuter diameter of circle, do=60mmInner diameter of circle,…

Q: Select a standard threaded round rod to support a factored tensile load of 35 kips (service tensile…

A: Given: The fractured load, Pf = 35 kips The service load, Ps = 25 kips The yield strength of A36…

Q: the ground and free in the upper end. a) Calculate the compressive stress, then the minimum…

A: Given Data: H=3 mm=1000 kgFOS=3σut,c=241 MPaE=190 GPa To Find: (a) The compressive stress. (b) The…

Q: Using the sample set of readings provided for Experiment 1 and taking the Young's Modulus of steel…

A: i hope its helpfull.thank you.

Q: A machine member is to be designed to operate under a stress ranging from 10,000 psi compression to…

Q: 1. Determine the diameter size of rods AB, BC and C if ay = 3600 MPa and the safety factor SF= 2.…

A: Determine the diameter size of rods AB, BC and CA, if Yield stress = Sy = 3600 MPa and the safety…

Q: 1. A vertical column with pinned ends is subjected to an end load P. The column has a radius of…

Q: 1. Construct a critical end-load intensity against slenderness ratio graph for a range of pinned…

Q: A bar of a steel alloy that exhibits the stress-strain behavior shown in Figure below is subjected…

A: Given:Initial length of the specimen:Side of the square cross section:So the cross sectional…

Q: 4) A 15ft W12x40 steel column is supported by a steel base plate, concrete pedestal and concrete…

A: Given: length of the steel column=15ft=180in cross sectional area of the columnA=11.7 in2 axial…

Q: A cylindrical specimen of a steel alloy having a diameter of 12.8 mm and a gauge length of 50.8 mm…

A: Given dataFOS=2.5F=8230 NTo find the shank diameterof SQeW

Q: 8. 10 plate 8X10 - S00 pounds of loud material 6061 Aluminum - Determine what type of stress Is…

A: Hf

Q: Q4/a- Astructural component of an engineering design loaded in plane strain cnodition must support…

A: Solution:To solve the problem of calculating the length of the largest internal flaw that the…

Q: A piece of beef steak 7 cm thick will be frozen in the freezer room -40 ° C. This product has a…

A: Given, Thickness of beef steak, d=7cm=0.07m Density of the product, ρ=970kg/ m3 Thermal conductivity…

Q: Parvinbhai bhaliya

A: The objective of the question is to design a suitable column given the load, material, and boundary…

Q: A solid circular rod of diameter d undergoes a bending moment M= 1500 lbf-in inducing a stress o=…

Q: Condition #1: Å structural support for a machine is subjected to a static compression load of 20 kN.…

Q: transverse load at the other en

Q: You are asked to design a square steel bar out of ASTM A36 steel. The steel has yield strength of…

Q: Use LRFD and design a 13-foot-long tension member and its connection for a service dead load of 8…

A: Equilibrium is a state of a body at which there is no disturbance in a system neither inside nor…

Concept explainers

Axial Load

When a bar of the uniform cross-section is acted by a load, such that the load acts along the longitudinal axis of the bar, such kinds of loadings are known as axial loadings. In general terms, a load is an external force acting on a component. An axial load acts perpendicular to the geometric cross-section of the component. Based on the direction of the application of the load, an axial load can be tensile or compressive. The analysis of bodies under the action of axial loads is generally studied under the branch of mechanics, known as statics.

Question

Required information
A solid square rod is cantilevered at one end. The rod is 0.6 m long and supports a completely reversing transverse load
at the other end of ±1.7 kN. The material is AISI 1080 hot-rolled steel. If the rod must support this load for 5 x 104 cycles
with a design factor of 1.5, what dimension should the square cross section have? Neglect any stress concentrations at the
support end.
What will the strength of the metal be at 5 x 104 cycles?
The strength of the metal at 5 x 104 will be
MPa.

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1: Given data

Step 2: solution

Step 3: solution

Solution

Step by step

Solved in 4 steps with 6 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, mechanical-engineering and related others by exploring similar questions and additional content below.

Similar questions

A circular bar is used as a column carrying a load of 8500 lb with pinned ends. The length of the bar is 50 in. Use SAE 4140 OQT1000 steel and design factor of 3.0. (E for steel = 30,000 ksi) Determine the required diameter of the column D = in (Must show calculations and attach the worksheets in the last question)
! Required information A rotating shaft of 25-mm diameter is simply supported by bearing reaction forces R1and R2. The shaft is loaded with a transverse load of 13 kN as shown in the figure. The shaft is made from AISI 1060 hot-rolled steel. The surface has been machined. NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. 200 mm 50 mm 25 mm 13 kN R1 R2 Not to scale. Determine the minimum fatigue factor of safety based on achieving infinite life.
Two parts of a machine, both made from steel, are held together by 9 equally-spaced M6 x 1.0 grade 8.8 bolts that are uniformly tightened to provide a total initial clamping force of 77 kN. Each bolt has a proof stress of 600 MPa, and a tensile area of 20.1 mm². The elasticities are such that the joint constant is 0.18. A uniform static tensile load of 36 kN is applied to the entire joint after it has been preloaded. What is the smaller value of either the factor of safety against joint separation or the load factor in this application? Express your answer to a resolution of two decimal places.
Parvinbhai
A factor of safety of 2.5 is used for the bolts in the assembly below. The ultimate shear stress of the magnesium alloy bolts is 20.0ksi. What should be the diameter of the bolts? 10 kip 5 kip 5 kip Diameter = in
. A machine member is subjected to fluctuating stress 0=0, cos(8nt). The endurance limit of the material is 350 MPa. If the factor of safety used in the design is 3.5, then the maximum allowable value of o, is MPa (round off to 2 decimal places). 0
Required information A solid square rod is cantilevered at one end. The rod is 0.6 m long and supports a completely reversing transverse load at the other end of ±1.7 kN. The material is AISI 1080 hot-rolled steel. If the rod must support this load for 5 x 104 cycles with a design factor of 1.5, what dimension should the square cross section have? Neglect any stress concentrations at the support end. Determine the endurance limit for this application. Assume that the size modification factor kis 0.85 until a size for the section is known. The endurance limit is 278.4 MPa.
Please solve all the question handwritten
Required information A short cantilevered round peg made from AISI 1030 cold-drawn steel is 40 mm in diameter and extends 10 mm from the wall. It is loaded, as shown, with a force F= 50 kN applied at the tip in the negative z direction and a torque T=800 N-m. The cross section at the wall is also shown, with points of interest A, B, and C. 10 mm 92 The minimum factor of safety is 2.93 Cross section at the wall Evaluate the state of stress at points A, B, and C, determine the critical case, and evaluate the minimum factor of safety based on the distortion-energy theory.
Pravinbhai
Problem 2 Assume that Member AB may be considered as long and slender and consider only Euler buckling. What is the critical Euler buckling load and will Member AB buckle? What is the factor of safety of the compressive load with respect to the critical buckling load? Assume buckling only occurs in the plane of the paper. Note: E-30e6psi, I-6.36e-3 in', A-2.83 in², LAB-41.6 in, FAB-540 lb (compression). Also Member OB is 36 inches (3 ft) long. F=270 lbf 3 ft 3 60 A = 45270 LB, n = 83.8, buckles 48400 LB, n = A. Per B. Per C. Per = 1088 LB, n 897, does not buckle 2.02, does not buckle D. Per = 544 LB, n = 0.993, buckles E. None of These
A tensile-testing apparatus is to be constructed that must withstand a maximum load of 293516 N. The design calls for two cylindrical support posts, each of which is to support half of the maximum load. Furthermore, plain-carbon(1045) steel ground and polished shafting rounds are to be used; the minimum yield and tensile strengths of this alloy are 343 MPa and 565 MPa(82,000 psi), respectively. Specify a suitable diameter in mm for these support posts. Assume safety level is 2.3. Round your answer to 2 significant figures.