School of Engineering/Aerospace Engineering and Aviation March 2019 — AERO2566 Aerospace Materials Class test 1 Family Name: XXXXXXXXXXGiven Name(s): Student #: ALLOWABLE MATERIALS AND INSTRUCTIONS TO...

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School of Engineering/Aerospace Engineering and Aviation March 2019 — AERO2566 Aerospace Materials Class test 1 Family Name: Given Name(s): Student #: ALLOWABLE MATERIALS AND INSTRUCTIONS TO CANDIDATES 1. Write your full name and student number on the first page of this paper. 2. Answer each question within the provided space. 3. Attempt all questions. 4. Show all equations and workings. Marks will be deducted for missing, incorrect units or unlabeled sketches on final answers. 5. The maximum possible score is 15 marks and this assessment will contribute 15% to the final course mark. Page 2 of 6 Q1: Upon graduation, you are employed as an aerospace design engineer and you are tasked with building a robotic arm to support astronauts during spacewalks at the International Space Station (ISS). A cable attached to the robotic arm must be able to lift an astronaut of average weight 80 kg without fail. The length of an unloaded cable is 5 m and under the extreme loading conditions, the cable must not exceed 5.005 m in length. Under no circumstances should the cable be allowed to deform plastically. (a) Given that the gravitational acceleration at the ISS is 10% lower than that on Earth, that the storage space allows for a cable not larger than 5.3 mm in diameter and that a safety factor of 1.5 must be applied, calculate the minimum modulus of elasticity of a material that can be used to manufacture a cable satisfying the above requirements. (5 marks). Page 3 of 6 (b) Available to you for the manufacturing of the cable are two materials as described below: - A steel cable of ultimate tensile strength of 60 MPa, yield strength of 54.6 MPa, and density of 7.8 g/cm3; - A carbon fibre-reinforced polymer composite cable of ultimate tensile strength 0.126 GPa and density of 1800 kg/m3. Considering that the ISS operates in an extreme thermal environment (e.g., -60 to 50ºC) and that minimizing the satellite launch payload is a primary objective, which of these two materials would you select for the cable? You must justify your selection against these two design requirements, showing all workings that support your selection of the cable material (3 marks). Page 4 of 6 Q2: Imagine that you are the principal engineer of a global helicopter rotor blade manufacturing company. Your company wins a tender to design a new light-weight rotor blade. The structural efficiency of aerospace materials is determined by the loading scenario (e.g., tensile, compression or bending) and the design optimization objective. The structural efficiency equations based on the minimization of weight are given below for different loading scenarios. For this task you have available two materials A and B, whose mechanical and physical properties are given in the table below. Considering that the rotor blade may experience more than one type of loading and using the structural efficiency equations relating to potential loading conditions for the rotor blade, which one of these two materials A or B, would you select if weight minimization was the objective? Justify your answer through detailed workings (3 marks). Material Density E - modulus Yield strength UTS Strain [ kg/ m 3 ] [kN/mm 2 ] [ N/mm 2 ] [ N/mm 2 ] [%] A 2 , 700 70 415 540 20 B 7 , 800 210 1,200 1,560 12 Page 5 of 6 Q3: An airline approaches the aerospace design company that you work for with requirements to design and build a mid-size aircraft (e.g., 200 – 300 passengers). The aircraft will be used primarily for short- haul flights (e.g. 8 × 2 hour flights each day). The aircraft will be plying a route notorious for heavy storms that usual involve hail stones. (a) Considering these specific service/operational conditions, state two mechanical properties that will be critical in your design process for continued airworthiness. Explain how you arrived at these critical properties (2 marks). Page 6 of 6 (b) Can you suggest a material or a combination of materials that would be suitable for the design of the upper fuselage section of this aircraft? Explain how the selected material or combination of materials will help maintain airworthiness of this aircraft over its operational life (2 marks). RMIT Classification: Trusted RMIT Classification: Trusted — AERO2566 Aerospace Materials Assignment 1 Family Name: Given Name(s): Student #: ALLOWABLE MATERIALS AND INSTRUCTIONS TO CANDIDATES 1. Write your full name and student number on the first page of this paper. 1. Answer all the questions within the provided space. 1. You have until Wednesday 1st of April 12.00 pm to attempt the questions and submit the assignment. Please submit a PDF copy of the assignment. 1. Show all equations and workings. Marks will be deducted for missing or incorrect units. 1. The maximum possible score is 20 marks and this assessment will contribute 20% to the final course mark. Q1: Explain and distinguish the following engineering terms: (a) Stiffness versus modulus of elasticity [1 mark] (b) Engineering stress versus true engineering stress [1 mark] (c) Fracture toughness versus damage tolerance [1 mark] (d) Fatigue life versus fatigue endurance limit [1 mark] Q2:You are an aerospace design engineer building a robotic arm to support astronauts during spacewalks at the International Space Station (ISS). A 3 m-long cable attached to the robotic arm must be able to lift and support an astronaut weighing up to 60 kg without plastically deforming. The maximum allowable strain experienced by the cable must not exceed 0.1%. The gravitational acceleration at the ISS is 80% that on Earth and your design must consider a safety margin 50% greater than the maximum expected load. Two materials are at your disposal; steel and aluminium cables with respective Young’s moduli values of 210 and 70 GPa. (a) If the cable will be strained to the allowable limit at least on one occasion, calculate the minimum diameter required of the steel and the aluminium cable that will be suitable for this application. Show all your workings step-by-step and report your answers in millimetres (mm). [4 marks] (b) The yield strength of steel is twice that of the aluminium cable. If the densities of the steel and aluminium cables were 7.8 and 2.7 g/cm3, respectively, which of these two materials would you select for this application if your objective was to minimise the weight of the ISS. Show how you arrived at your choice with the support of relevant calculations [2 marks] Q3:Imagine that you are an engineer for an aircraft manufacturing company, and you have been asked to design a bulkhead for a mid-sized aircraft. The structural efficiency of aerospace materials is determined by the loading scenario (e.g., tensile, compression or bending) and the design optimization objective. The structural efficiency equations based on the minimization of weight are given below for different loading scenarios. For this task you have available two materials A and B, whose mechanical and physical properties are given in the table below. Material Density Yield strain Yield strength UTS Strain [ kg/ m 3 ] [%] [ N/mm 2 ] [ N/mm 2 ] [%] A 2 , 700 0.59 415 540 20 B 7 , 800 0.43 1,200 1,560 12 Considering the loading stresses experienced by the bulkhead
Answered Same DayMar 31, 2021AERO2566

Answer To: School of Engineering/Aerospace Engineering and Aviation March 2019 — AERO2566 Aerospace Materials...

Ishwar answered on Mar 31 2021
143 Votes
1

Answer: 1a
Stiffness is the mechanical properties which depend on material and geometrical shape of
component. Modulus of
elasticity is defined as the ratio of stress to strain. The modulus of
elasticity depends on material properties.
Answer: 1 b
The true stress is define as ratio of load to the cross section area of test specimen
Engineering stress is defined as the ratio of load to initial cross section area of specimen. in this
case, the engineering stress is basically a normalizing of the load, and having physical
significance when the actual area is differ than original area.
Answer 1C
Fracture toughness is the material property which govern the critical stress at particular point
when crack occur and material behave as brittle, unstable and propagates crack.
Damage tolerance is the structural properties which concern about the sustain defect safety until
noticeable repair can’t be found. The damage tolerance based on assumption that the error can
exist in structure and it will propagate as stress induces.
Answer: 1D
The fatigue life is define as the number of cyclic load sustain by test specimen before failure
occur, whereas fatigue endurance limit is the stress level below the infinite numbers of loading
cycle applied to material without first crack or causing fatigue failure.
2
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