# Tensile strength Essays & Research Papers

## Best Tensile strength Essays

• Tensile Strength - 488 Words
INCORPORATION OF DEVULCANIZED RUBBER INTO A VIRGIN TIRE TREAD RUBBER COMPOUND Mohammad Meysami, Shuihan Zhu, and Costas Tzoganakis Department Of Chemical Engineering, University of Waterloo Waterloo, Ontario, Canada Elongation at break Characterization •Devulcanization of waste rubber with scCO2 in an extruder is an environmentally friendly continuous process; •A reasonably high throughput of devulcanized rubber has been obtained in the devulcanization process in a twin screw...
488 Words | 11 Pages
• Tensile Strength and Solution - 1192 Words
problem 261 A steel rod with a cross-sectional area of 0.25 in2 is stretched between two fixed points. The tensile load at 70°F is 1200 lb. What will be the stress at 0°F? At what temperature will the stress be zero? Assume α = 6.5 × 10-6 in/(in·°F) and E = 29 × 106 psi. Solution 261 For the stress at 0°C: answer For the temperature that causes zero stress: answer problem 262 A steel rod is stretched between two rigid walls and carries a tensile load of 5000 N at 20°C. If...
1,192 Words | 8 Pages
• Plastic and High Tensile Strength
* Biopol is a copolymer of polyhydroxybutyrate (PHB) and polyhydroxyvalerate (PHV) to form PHBV. PRODUCTION: * Enzyme used in synthesis is Ralstonia eutrohpus * Biopol is produced industrially, using the fermentation of sugar by R. eutrohpus that grow in tanks with a carbon-based food source and limited nutrients (P/NO3). It is then separated and purified. * Polymers made from plants have the same...
323 Words | 2 Pages
• Lab Report Tensile Strength
﻿Lab Report - Tensile Strength Date : 24-Feb-2013 Experimental Data Cold Work Steel (CWS) – Specimen 1 Width (mm) Thickness (mm) I II III Average I II III Average Before 10.029 10.04 10.02 10.0297 3.06 3.07 3.07 3.0667 After 9.09 9.00 - 9.045 2.60 2.40 - 2.50 Annealed Steel (As) – Specimen 2 Width (mm) Thickness (mm) I II III Average I II III Average Before 10.24 10.13 10.10 10.16 3.07 3.08 3.09 3.08 After 8.11 8.08 - 8.095...
563 Words | 6 Pages
• ## All Tensile strength Essays

• Tensile Strength Report - 731 Words
Tensile Strength Report | Materials in Practice CP4088/CP8011 | By Clinton Chang | Synopsis This experiment is to find out the tensile strength of different plastic materials. The four plastic materials used are General Purpose Polystyrene (GPPS), High Impact Polystyrene (HIPS), High Density Polyethylene (HDPE) and Polypropylene (PP). By using three samples from each plastic material type, we are able to obtain the mean tensile strength, mean tensile modulus and mean yield strength of...
731 Words | 3 Pages
• Tensile - 1714 Words
METU DEPARTMENT OF METALLURGICAL AND MATERIALS ENGINEERING Met E 206 MATERIALS LABORATORY EXPERIMENT 1 Prof. Dr. Rıza GÜRBÜZ Res. Assist. Gül ÇEVİK (Room: B-306) TENSION TEST INTRODUCTION Mechanical testing plays an important role in evaluating fundamental properties of engineering materials as well as in developing new materials and in controlling the quality of materials for use in design and construction. If a material is to be used as part of an engineering structure that will be...
1,714 Words | 6 Pages
• Compressive, Flexural, and Tensile Strength of Concrete
﻿ CE 314K Properties and Behavior of Engineering Materials Laboratory 4: Compressive, Flexural, and Tensile Strength of Concrete Lab Section: TH 2–5 PM Unique #: 15785 Lab TA: Janaki Vamaraju Solutions: 1.) In this lab, concrete cylinders and beams created from Lab 3 were tested for compressive, flexural, and tensile strength. The compressive strength of the concrete was found by applying an axial load on the cylinder until the cylinder failed. The...
1,620 Words | 16 Pages
• acid and bases on tensile strength of fibre
Top of Form Bottom of Form HomeOur SitemapChemistry ProjectsPhysics ProjectsBiology ProjectsScience Projects HYPERLINK "http://www.allprojectreports.com/CBSE-HBSE-School-Projects/Chemistryprojectreport.htm" Chemistry Project Report on“Acid & Bases on Tensile Strength of Strength of Fibres” Declaration I, ____________ student of ___________________ is doing project report on “Acid & Bases on Tensile Strength of Strength of Fibres” being submitted to ___________________is an...
941 Words | 1 Page
• Engineering Principles: Tensile Strength Test Assignment
﻿ TENSILE STRENGTH TEST ENGINEERING PRINCIPLES ASSESSMENT TWO Alan Tait PLAGERISM I can confirm that all works contained in this report are my own. My sources are from information and data collected from experiments carried out in the class. I understand that if the work in this report is deemed not to be my own then it shall be rendered void. Signed______________________________________ INTRODUCTION As a class we were given a piece of mild steel with the following...
657 Words | 3 Pages
• Tensile Testing - 1490 Words
Tensile Testing Of Metallic Materials 概要： Tensile testing of metallic materials is specified according to European EN 10002 standard. In this article the terms, definitions and designation for tensile test made at ambient temperature is described. The test involves straining a test piece in tension, generally to fracture, for the purpose of determining mechanical properties. Tensile testing of metallic materials is specified according to European EN 10002 standard. This standards consists of...
1,490 Words | 5 Pages
• Determination of the tensile strength of star bioplastic cast-film reinforced with pineapple peel
﻿Determination of the tensile strength of starch bioplastic cast-film reinforced with Pineapple peel 1Caburnay, Frances Dianne R., 1Contreras, Jonathan S., 1Dulnuan, Gwen Kristin C 2Asst. Professor Catherine D. Sanchez 1Bachelor of Science in Food Technology 2Chemical Engineer ABSTRACT Natural fibers have become new alternative materials that can replace petroleum-based plastic, either alone or combined with another material, to produce greener composite materials. One of the most...
2,228 Words | 8 Pages
• Tensile Test - 523 Words
Abstract A tensile test was conducted on an Instron tensile machine using a 3/16 inch copper rod. Using data acquired stress and strain was calculated and plotted on Excel to analyze stress strain curve. Modulus of elasticity, 0.2% yield stress, ultimate tensile stress and % elongation were also calculated. Introduction A tension test is probably the most fundamental type of mechanical test you can perform on material. Tensile tests are simple, relatively inexpensive, and fully...
523 Words | 4 Pages
• tensile testing - 2583 Words
﻿■» Marked by Teachers This document was downloaded from www.markedbyteachers.com Abstract The tensile test is widely used to provide basic design information on the strength of materials and as an acceptance test for the specification of materials. The teaching and learning of tensile testing was based on laboratory experiments used in the Mechanical Engineering Laboratory (CM180) at the City University. The experiment looked at how the microstructure of a material can affect its...
2,583 Words | 15 Pages
• Strength of Material - 49009 Words
Section 5 Strength of Materials BY JOHN SYMONDS Fellow Engineer (Retired), Oceanic Division, Westinghouse Electric Corporation. J. P. VIDOSIC Regents’ Professor Emeritus of Mechanical Engineering, Georgia Institute of Technology. Late Manager, Product Standards and Services, Columbus McKinnon Corporation, Tonawanda, N.Y. DONALD D. DODGE Supervisor (Retired), Product Quality and Inspection Technology, Manufacturing Development, Ford Motor Company. HAROLD V. HAWKINS 5.1...
49,009 Words | 201 Pages
• Strength of Materials - 6269 Words
Seatwork 1. An aluminum tube is rigidly fastened between a bronze and steel rod as shown. Axial loads are applied at the position indicated. Determine the stress in each material. 2. Two bars are equal length but different materials are suspended from a common support, bar A supports 200lbs and bar B supports 2000lbs, if the cross sectional area of bar A is 0.00015ft2 and bar B is 0.015ft2, compare the strength of bar A and bar B in psi. Assignment 1. A timber shown in figure...
6,269 Words | 41 Pages
• Strength of Materials - 879 Words
STRENGTH OF MATERIAL TENSILE TESTING OF METALS STRENGTH OF MATERIAL TENSILE TESTING OF METALS OBJECTIVE : Tension test is carried out; to obtain the stress-strain diagram, to determine the tensile properties and hence to get valuable information about the mechanical behavior and the engineering performance of the material… INTRODUCTION: A tensile test, also known as a tension test, tests a material’s strength. It's a...
879 Words | 5 Pages
• strength of concrete - 931 Words
﻿ Strength of concrete Chapter 6 Properties of concrete :- Strength Durability Impermeability Volume stability Strength of concrete is the most valuable property. What is strength? Strength depends on the physical structure and volume of hydration products. Therefore it gives an idea of the quality of concrete. Note :- strength depends...
931 Words | 4 Pages
• Lab Test: Tensile Testing
Lab 2 Tensile Test Abstract The aim behind this experiment was to put Mild steel, copper and aluminium through a tensile test, with Mild steel being tabulated and graphed to show its properties and how they could be used in the real world. Introduction/Theory Tensile testing is one of the most simple and widely used materiel tests available. It is used to characterize the mechanical properties of the material and has direct implications on the design and construction of the end product. This...
1,214 Words | 11 Pages
• Experiment: Tensile Test - 300 Words
Introduction Tensile test is also known as tension test. It is material’s strength test where pulling force is applied from two ends. It is very important mechanical property evaluation test which provides fundamental properties like strength, stiffness, elastic limit, ultimate tensile strength etc. in this test, test object are standard size and shape but different material, then direct comparison of properties of those materials can be made. We had used standard “dumb-bell”...
300 Words | 2 Pages
• Materials in Practice Tensile Test
Experiment 1: Mechanical Properties Part A: Tensile Strength DCHE/FT/1A/01 Group A Loh Jia Jun (1316717) 26 April 2013 MATERIALS IN PRACTICE...
1,613 Words | 6 Pages
• Introduction to Tensile Testing - 6605 Words
CHAPTER 1 Introduction to Tensile Testing TENSILE TESTS are performed for several reasons. The results of tensile tests are used in selecting materials for engineering applications. Tensile properties frequently are included in material speciﬁcations to ensure quality. Tensile properties often are measured during development of new materials and processes, so that different materials and processes can be compared. Finally, tensile properties often are used to predict the behavior of a...
6,605 Words | 29 Pages
• Tensile Test Report - 1109 Words
﻿Tensile Test Abstract The objective of this experiment is to test three specimens of different materials in a Tensile test machine and to calculate basic material characteristics such as tensile stress and Young’s Modulus. This report will explain in detail theory and procedures involved in such test and give all results obtained by group C2 on October 2013. Introduction Young’s Modulus, also known as Elastic Modulus is a material characteristic that represents stiffness and is defined as...
1,109 Words | 5 Pages
• Tensile Test Report - 2100 Words
Practical Report Name: Loh Khin Keong Admin No.: 1237078 Group number: A Date: 11/5/12 Class: DMLS/1A01 Experiment 1A: Determination of Mechanical Properties of Selected Materials (CDIO) 1. Synopsis The objective of this CDIO experiment was to determine the mechanical property of polymeric materials which was the tensile properties .The testing standard to adopt for the tensile testing was ASTM D638. Four different types of polymers were placed into the tensile testing machine. The...
2,100 Words | 8 Pages
• Tensile lab report - 1399 Words
﻿1.0 Abstract The elastic modulus, yield point, and ultimate strength of mild steel were determined in uniaxial tension. The "dogbone" specimen geometry was used with the region of minimum cross section having the dimensions: thickness =1.04 mm, width = 3.14 mm, and length section = 30 mm. This experiment was accomplished by first placing our specimens one at a time into a tensile testing machine (A G.U.N.T Hamburg Tensile Testing Machine (Max. load = 2kN)), which, under physical control,...
1,399 Words | 24 Pages
• Tensile Test Lab Report
Introduction The construction materials course is an essential part of civil engineering as the strength of all structures and constructions depends on the material used. The tension test is one of the laboratories which help students develop their knowledge in this course by practice. During the laboratory a Tinius Olsen Tension Test equipment was used, and the test samples were from low and high carbon steel and timber with grains parallel and perpendicular to the load. Test equipment and...
2,204 Words | 7 Pages
• Lab Test: Tensile Testing
﻿Lab 8: Tensile Testing 1. Introduction The mechanical properties of materials are determined by performing carefully designed laboratory experiments that replicate as nearly as possible the service conditions. In real life, there are many factors involved in the nature in which loads are applied on a material. The following are some common examples of modes in which loads might be applied: tensile, compressive, and shear. These properties are important in materials selections for...
1,958 Words | 7 Pages
• Materials Science and Tensile Testing Machine
﻿ I. SKETCH KEY: 1. MECHANICAL SHAKER 2. L.A. ABRASION TESTING MACHINE 3. COMPRESSION TESTING MACHINE 4. UNIVERSAL TESTING MACHINE 5. TENSILE TESTING MACHINE A. MECHANICAL SHAKER This machine is usually used during a gradation test The said shaker has the capacity of approximately 10 to 20 kilograms. Mechanical Shakers can be used for design qualifications, end product...
319 Words | 2 Pages
• tensile test of aluminum and mild steel
ABSTARCT: Tensile tests are fundamental for understanding properties of different materials, and how they will behave under load. These properties can be used for design and analysis of engineering structures, and for developing new Materials that better suit a specified use. This lab tested two materials mild steel and cast iron. The data from each test was used to determine valuable material properties such as ultimate tensile strength, modulus of elasticity, and yield strength. Other...
1,366 Words | 10 Pages
• The Tensile Behaviour of Common Engineering Polymers
The Tensile Behaviour of Common Engineering Polymers Abstract The mechanical properties of polymers vary significantly from polymer to polymer as a result of atomic structures and bond strength. The tensile properties of representative samples from the common polymer were tested and evaluated in this experiment. This laboratory experiment is also designed to demonstrate the procedure used for obtaining mechanical properties as modulus of elasticity, yield strength, ultimate tensile...
2,341 Words | 9 Pages
• Titan Strength Tester - 346 Words
Titan3: James H. Heal are delighted to announce the launch of Titan³ Universal Strength Tester With the increased ability to work in Tension and Compression and the introduction of a wide variety of New Tooling and Accessories and updated Software, users will find Titan³ offers a whole new suite of opportunities. This cost effective and technologically superior instrument has a maximum capacity of 3000N and is ideal for testing a wide variety of materials including Textiles, Nonwovens, Paper...
346 Words | 2 Pages
• Lab of Shear Strength - 1266 Words
Sheridan Institute of Technology and Advanced Learning Faculty of Applied Science and Technology _____________________________________________ ENGI23413 Mechanics of Materials Lab Report #: 2 Title of Experiment:Shear Strength Class #:70264 Group Members present (with Initials): 1:Gurpreet Singh (….) 2:Jaskirt Singh Na (….) 3: Amninderjeet Singh(….) 4:Rajbir Singh(….) 5:Gurtej Singh(….) 6:Shiv Kumar(….) Date of Experiment: . 12/09/2012...
1,266 Words | 5 Pages
General Motors-AISI AAC Advanced High Strength Steel Repairability Study Phase I Final Report Introduction The introduction of Advanced High Strength Steels (AHSS) to light vehicle body structure applications poses a significant challenge to organizations involved in the repair of vehicle structures. AHSS are typically produced by nontraditional thermal cycles and contain microstructural components whose mechanical properties can be altered by exposure to elevated temperatures. This...
4,030 Words | 38 Pages
• Compressive Strength and Griffith Criterion
The University of Hong Kong Department of Civil Engineering CIVL2002 M – Geology & Rock Laboratory Report Brazilian Test A. Introduction As shown by the Griffith criterion, tensile strength of brittle materials is theoretical 1/8 of the compressive strength. Typically, tensile strength of rock materials is about 1/10 to 1/8 of the compressive strength. Hence, rock fails easily under tension. In design, rock should be subjected to minimum tensile stress. Several...
3,611 Words | 13 Pages
• Material Science Lab Report Tensile Creep Test
MATERIAL SCIENCE EXPERIMENT-2 NAME OF THE TEST: HARDNESS TEST AIM : OBJECT TO DETERMINE HARDNESS TEST OF A METARIAL INTRODUCTION It become necessary to test engineering materials before they are accepted for processing, buying or applying to determine whatever or not they meet the spefications required. One of the tests is hardness test. The Rockwell and brinell machines are those most commonly used for this purpose. PROCUDURE AND LABORATORY REPORT 1....
479 Words | 2 Pages
• Properties Obtained from Tensile Stress Test
Yield Strength As we apply a low level of stress to a material; the material initially exhibits elastic deformation. In this region the strain that develops is completely and quickly recovered when the applied stress is removed. However, as we continue to increase the applied stress the material begins to exhibit both elastic and plastic deformation. The critical stress value needed to initiate plastic deformation is defined as the elastic limit of the material. In metallic materials, this is...
529 Words | 2 Pages
• Strength of Materials 4th Ed. by Ferdinand L. Singer
Simple Stresses Simple stresses are expressed as the ratio of the applied force divided by the resisting area or σ = Force / Area. It is the expression of force per unit area to structural members that are subjected to external forces and/or induced forces. Stress is the lead to accurately describe and predict the elastic deformation of a body. Simple stress can be classified as normal stress, shear stress, and bearing stress. Normal stress develops when a force is applied perpendicular to the...
17,796 Words | 77 Pages
• Tensile Properties and Microstructural Analysis of Spheroidized Hydroxyapatite- Poly (Etheretherketone) Biocomposites
Title: Tensile properties and microstructural analysis of spheroidized hydroxyapatite- poly (etheretherketone) biocomposites Authors: M.s. Abu Bakar, P. Cheang, K.A. Khor Journal: Materials Science and Engineering A345 (2003) 55-63. In the present article, the authors investigate the use of flame spheroidized hydroxyapatite particulates in a PEEK polymer for usage as bone analogue materials. Metallic implants have been used for orthopedic implants in the past, but polymeric implants...
807 Words | 3 Pages
• Stress - 318 Words
Young's Modulus: This is the slope of the linear portion of the stress-strain curve, it is usually specific to each material; a constant, known value. Yield Strength: This is the value of stress at the yield point, calculated by plotting young's modulus at a specified percent of offset (usually offset = 0.2%). Ultimate Tensile Strength: This is the highest value of stress on the stress-strain curve. Percent Elongation: This is the change in gauge length divided by the original gauge...
318 Words | 2 Pages
• Mechanical and Creep Testing - 3622 Words
EN1029 LABORATORY Laboratory MT STUDENT Rose Simon NAME: STUDENT NUMBER 1240682 DATE EXPERIMENT Wednesday 07 February (Week 2) PERFORMED: DATE OF SUBMISSION: Friday 15 February (Week 3) Declaration In submitting this report, I hereby declare that, except where I have made clear and full reference to the work of others, this submission, and all the material (e.g. text, pictures, diagrams) contained in it, is my own work, has not...
3,622 Words | 14 Pages
• Engineering Studies- HSC Course
﻿Engineering Studies – HSC Course Assessment Task 2 Page 1…………………………………………………………………………….Title Page Page 2…………………………………………………………………………….Material Properties Page 3…………………………………………………………………………….Reynolds 853 Page 4…………………………………………………………………………….Reynolds X100 Page 5…………………………………………………………………………….Titanium alloy Page 6…………………………………………………………………………….7005 Aluminium alloy Page 7…………………………………………………………………………….Carbon Fibre Page 8…………………………………………………………………………….4130 Chromium Molybdenum...
4,317 Words | 16 Pages
• Engine - 3548 Words
Manufacturing Processes and Engineering Materials Used in Automotive Engine Blocks by Hieu Nguyen School of Engineering Grand Valley State University Term Paper EGR250 – Materials Science and Engineering Section B Instructor: Dr. P. N. Anyalebechi April 8, 2005 Manufacturing Processes and Engineering Materials Used in Automotive Engine Blocks Abstract Until recently, cast iron and aluminum alloys have been the preferential materials used to manufacture most...
3,548 Words | 16 Pages
• lab 1 - 2687 Words
QUT, Science and Engineering Faculty ENB110 – Engineering Statics and Materials Laboratory 1- Tensile Testing Important Information This file contains prac handout, laboratory worksheet, CRA and health and safety information. You MUST prepare yourself before coming to the laboratory:  Wear appropriate clothing such as covered shoe.  Attempt the pre-lab questions (below).  Be aware of the hazards and risks during the prac session and must know the control measures in-case of accident...
2,687 Words | 22 Pages
• Engineering Materials Week 6
﻿Engineering Materials Week 6 9.7 Given here are the solidus and liquidus temperatures for the copper-gold system. Construct the phase diagram for this system and label each region. 9.22 For 5.7 kg of a magnesium-lead alloy of composition 50 wt% Pb-50 wt% Mg, is it possible, at equilibrium, to have α and Mg₂Pb phases with respective masses of 5.13 and 0.57 kg? If so, what will be the approximate temperature of the alloy? If such an alloy is not possible, then explain why. It is not possible....
343 Words | 2 Pages
• Rule of Mixtures - 824 Words
turesRule of Mixtures Composite stiffness can be predicted using a micro-mechanics approach termed the rule of mixtures. Assumptions 1. 2. 3. 4. 5. 6. Fibers are uniformly distributed throughout the matrix. Perfect bonding between fibers and matrix. Matrix is free of voids. Applied loads are either parallel or normal to the fiber direction. Lamina is initially in a stress-free state (no residual stresses). Fiber and matrix behave as linearly elastic materials. Longitudinal Modulus Equal...
824 Words | 6 Pages
• Introduction Of Nuclear - 649 Words
﻿INTRODUCTION Malaysian Nuclear Agency (Nuclear Malaysia) or former Malaysian Institute for Nuclear Technology Research (MINT) responsible researching nuclear technology and associated technology in Malaysia. Among the main activities of the Nuclear Malaysia is a research and technology development, technical services, human resource development and external relations. Malaysian Nuclear experts affiliated with experts from the National University of Malaysia to develop technologies radioactive,...
649 Words | 2 Pages
• Midterm Material Notes - 7909 Words
﻿Class 1 Metallic bonding: Found in metals and alloys, 1, 2, or 3 valence electrons that are not bound to any particular atom in the solid. They drift throughout the entire metal. This results in a sea of electrons. These free electrons result in good electrical and heat conductivity. Coordination number is 8 or 12 (number of nearest neighbors). Ionic Bonding Found in compounds that are composed of both metallic and nonmetallic elements. Metallic element gives up valence electrons to...
7,909 Words | 38 Pages
• Combined Tension and Bending Loading in Bottom Chord Splice Joints of Metal-Plate-Connected Wood Trusses
Combined Tension and Bending Loading in Bottom Chord Splice Joints of Metal-Plate-Connected Wood Trusses by Philip J. O’Regan Thesis submitted to the Faculty of the Virginia Polytechnic Institute and State University in partial fulfillment of the requirements for the degree of MASTER OF SCIENCE in Biological Systems Engineering APPROVED: Frank E. Woeste, Chairman Joseph R. Loferski Audrey G. Zink John V. Perumpral May, 1997 Blacksburg, Virginia Keywords: wood truss,...
29,066 Words | 96 Pages
• Home Worksss - 1065 Words
7.59 From the stress–strain data for poly(methyl methacrylate) shown in Figure 7.24, determine the modulus of elasticity and tensile strength at room temperature [20°C (68°F)], and compare these values with those given in Tables 7.1 and 7.2. Solution From Figure 7.24, the elastic modulus is the slope in the elastic linear region of the 20C curve, which is The value range cited in Table 7.1 is 2.24 to 3.24 GPa (325,000 to 470,000 psi). Thus, the plotted value is a little on the...
1,065 Words | 4 Pages
• Improvement of soft soils using geogrid encased stone columns
Geotextiles and Geomembranes 27 (2009) 167–175 Contents lists available at ScienceDirect Geotextiles and Geomembranes journal homepage: www.elsevier.com/locate/geotexmem Improvement of soft soils using geogrid encased stone columns Joel Gniel 1, Abdelmalek Bouazza* Monash University, Department of Civil Engineering, Building 60, Melbourne, Victoria 3800, Australia a r t i c l e i n f o a b s t r a c t Article history: Received 16 May 2008 Received in revised form 4...
3,904 Words | 21 Pages
• A Study on Forging of Wrought Alloys
A STUDY ON FORGING OF WROUGHT ALUMINUM ALLOYS (AA2014, AA2219, AA5083, AA6061, AA7075) AT RACHAMALLU FORGINGS Pvt. Ltd. A MINI PROJECT WORK IN THE PARTIAL FULFILLMENT OF THE DEGREE BACHELOR OF TECHNOLOGY IN METALLURGICAL AND MATERIALS ENGINEERING...
7,918 Words | 33 Pages
• Manufacturing Case Study - 3162 Words
102EMM Coursework 2; Manufacturing Case Study By James Yerbury (3160565), Russell Williams (3523106), Steve Collingwood (3067437) & Karen Whitehead (3785276) Introduction Before a manufacturing process can be selected to manufacture a component many things need to be considered. The design of the product, the functionality, the service conditions and the properties of the material all play a big part when considering...
3,162 Words | 11 Pages
• ELASTIC DEFORMATION AND POISSON’S RATIO
﻿ ELASTIC DEFORMATION AND POISSON’S RATIO E 45 – Materials, Friday 8:00 am September 21, 2012 Due: October 19, 2012 Abstract A tensile test was performed on a 4140 steel sample and the axial and transverse strains were measured. Data points were collected at incremental loads and graphed to determine the elastic modulus (30.4 x 106). Poisson’s ratio was also calculated from the dataset and determined to be 0.29. These experimental...
4,723 Words | 28 Pages
• Tension Lab - 505 Words
1. Plot stress vs. strain of each material tested The three graphs were plotted using data collected during the experiment, Figure 1, 2 and 3 Figure 1 Figure 2 Figure 3 2. Determine the proportional limit of the test specimen: Proportional limits are approximately as follows- * copper is 8,888 psi * Aluminum is 6,666 psi * Polyester is 9,696 psi 3. Determine the Elastic Modulus of the specimens: * The Modulus of Elasticity for copper specimen...
505 Words | 2 Pages
• Is: 3177 - 5211 Words
IS 3177 : 1999 Edition 3.2 (2003-07) ( Reaffirmed 2006 ) Indian Standard CODE OF PRACTICE FOR ELECTRIC OVERHEAD TRAVELLING CRANES AND GANTRY CRANES OTHER THAN STEEL WORK CRANES ( Second Revision ) (Incorporating Amendment Nos. 1 & 2) ICS 53.020.20 © BIS 2004 BUREAU MANAK BHAVAN , 9 BAHADUR SHAH ZAFAR MARG NEW DELHI 110002 OF INDIAN STANDARDS Price Group 15 Cranes, Lifting Chains and Related Equipments Sectional Committee, HMD 14 FOREWORD This Indian...
5,211 Words | 15 Pages
• Lldpe - 368 Words
PROPERTIES Unit Value (1) ASTM Method Resin Properties Melt Flow Rate @ 190°C & 2.16 kg load Density @ 23°C g/10 min. kg/m3 5 935 D 1238 D 1505 Tensile Strength @ Yield Tensile Strength @ Break Tensile Elongation @ Break 1% Secant Modulus Flexural Strength Hardness (Shore D) ESCR (100% Igepal), F50 MPa MPa % MPa MPa hrs 16 17 590 420 13 66 >150 D 638 D 638 D 638 D 790 D 790 D 2240 D 1693B THERMAL PROPERTIES Vicat Softening Point...
368 Words | 3 Pages
• Mechanical Testing Lab Report
Purpose This experiment was intended to make students familiar with some common methods of mechanical testing. The laboratory sessions included mechanical testing such as Rockwell hardness testing, the tensile test, the Charpy impact test, and the Jominy end-quench test. Materials and Methods For the first method of this experiment, the Rockwell hardness testing of brass, the TA prepared three different types of brass for testing. (Free machining cartridge brass: 360 brass 70% Cu – 30%...
1,311 Words | 4 Pages
• Professor - 5463 Words
Predicting the compressive and tensile strength of rocks from indentation hardness index by S. Kahraman*, M. Fener†, and E. Kozman‡ Synopsis The prediction of rock properties from indirect testing methods is important, particularly for preliminary investigations since indirect tests are easier and cheaper than the direct tests. In this study, we investigate the predictability of the uniaxial compressive strength (UCS ) and Brazilian tensile strength (BTS ) of rocks from the indentation...
5,463 Words | 18 Pages
• Airplane Material - 2400 Words
Lecture based on Materials (Book: The science of strong materials, Penguin Publishers.) The aeronautical journal (Library can order for you), one article written in 1996, by Peal, I.J.Mocolm. Ceramic Science, pg 123-131. (Relevant to exam) There are two key reasons for using thermoplastic composites: * save time & handling costs in production * eliminate labour-intensive riveting & bonding * can produce large profile sections that are some 20 % lighter than metal &...
2,400 Words | 8 Pages
• The Science and Engineering of Materials - 5084 Words
TITLE : Tensile Test ABSTRACT The tensile test experiment being done purposely to determine the deformation of our specimen which is low carbon steel or also called as mild steel, and it also to identify the fracture characteristic of the specimen based on the result that we got through the experiment. Based on the data presence from this experiment ,we used it to calculate the stress and strain using a theoretical formula. Through all the calculation that we got, we construct a table...
5,084 Words | 18 Pages
• Mse Sloution Manual - 2171 Words
CHAPTER 15 COMPOSITES PROBLEM SOLUTIONS Large-Particle Composites 15.1 The mechanical properties of cobalt may be improved by incorporating fine particles of tungsten carbide (WC). Given that the moduli of elasticity of these materials are, respectively, 200 GPa (30 × 106 psi) and 700 GPa (102 × 10 psi), plot modulus of elasticity versus the volume percent of WC in Co from 0 to 100 vol%, using both upper- and lower-bound expressions. Solution The elastic modulus versus volume percent...
2,171 Words | 12 Pages
• Formula Student - 1409 Words
MECHANICAL PROPERTIES Table I lists minimum yield strength, minimum ultimate tensile strength, and minimum elongation values. Yield strength, ultimate tensile strength, and elongation property values are determined with standard test method ASTM B557. This table also includes hardness screening criteria values, indicated in parentheses. As applicable, minimum electrical conductivity values are also specified. TABLE I Minimum Ultimate Tensile Strength3 (ksi) 38.0 38.0 35.0 26.0 38.0 38.0 38.0...
1,409 Words | 5 Pages
• Material Analysis of Aircraft Wing Skin
﻿OBJECTIVE To ensure and guarantee the safety of flight, the materials in an aircraft used is an important element. This includes small parts like nuts, bolts and screw. The materials are chosen because they must have a certain features like light and extremely strong This project looks into the parts of an airplane mainly the wing. The wing of an aircraft comprises of skin, spar, ribs and stringer. We will further discuss into the properties, test standards and factors of the materials being...
4,177 Words | 15 Pages
• Experiment to Determine the Specific Material Properties of Ductile Steel
By Group D: Course: Instructor: APPENDIX I. ABSTRACT: page 3 II. INTRODUCTION: page 4 III. THEORY AND ANALYSIS page 5 Figure D: Example of a Stress versus Strain Curve page 7 IV. PROCEDURE: page 8 Figure A: Apparatus: page 1 Set-up Test: page 8 Starting Test: page 8 V. RESULTS page 9 Table # 1: Summarization of calculated data page 10 Table # 2: Data from MTS page 11 Table # 3:...
2,723 Words | 12 Pages
MEC411 Faculty of Mechanical Engineering Engineering Mechanics Centre of Studies V{tÑàxÜ E Axial Loading Materials for this chapter are taken from : 1. 2. Ferdinand P. Beer, E. Russell Johnston,Jr, John T. Dewolf, David F. Mazurek “ Mechanics of Materials” 5th Edition in SI units R.C.Hibbeler “ Mechanics of Materials “ Seventh Edition Ch 2 - 1 MEC411 Faculty of Mechanical Engineering Engineering Mechanics Centre of Studies Introduction Suitability of a structure or...
3,738 Words | 26 Pages
• Engineering Materials Week 3
﻿Engineering Materials Week 3 5.1 Briefly explain the difference between self-diffusion and interdiffusion. Self-diffusion refers to movement of atoms within a pure material; interdiffusion refers to the movement of one or more kind of atoms in a heterogeneous system. 5.7 A sheet of steel 2.5mm thick has nitrogen atmospheres on both sides at 900C and is permitted to achieve a steady-state diffusion condition. The diffusion coefficient of nitrogen in steel at 900 C is 1.2 10^-10 m^2/s, and the...
406 Words | 2 Pages
• Properties of Engineering Materials - 1666 Words
Engineering materials Choice of materials for a machine element depends very much on its properties, cost, availability and such other factors. It is therefore important to have some idea of the common engineering materials and their properties before learning the details of design procedure. Common engineering materials are normally classified as metals and nonmetals. Metals may conveniently be divided into ferrous and non-ferrous metals. Important ferrous metals for the present...
1,666 Words | 6 Pages
• Engineering Materials - 44737 Words
Engineering Materials Msc. Shaymaa Mahmood Introduction to Eng. Materials : Since the earliest days of the evolution of mankind , the main distinguishing features between human begins and other mammals has been the ability to use and develop materials to satisfy our human requirements. Nowadays we use many types of materials, fashioned in many different ways, to satisfy our requirements for housing, heating, furniture, clothes, transportation, entertainment, medical care, defense and all...
44,737 Words | 162 Pages
• Carbon Fibre Reinforced Polymer 2
﻿ Carbon fibre reinforced polymer Name Institutional analysis Introduction Carbon Fibre reinforced polymer commonly known as CFRP is a very strong composite material that is majorly preferred for many automotive and aeronautical application due to the fact that despite their strength that still light that the traditional metallic materials. The polymers often used to make this composite material is epoxy, polyester, vinyl and even nylon. Thus in making CFRP carbon fibre is often...
1,406 Words | 4 Pages
• Asddsa - 322 Words
Assignment 5 (30 points) 1. (5 points) Compute the longitudinal and transverse stiffness E1, E2 of an S-glass epoxylamina for a fiber volume fraction Vf = 0.7, using the properties from attached Tables. 2. (5 points) Plot the longitudinal stiffness E1 of an E-glass/nylon unidirectionally reinforced composite, as a function of the volume fraction Vf of fiber. Use the properties from attached Tables. 3. (5 points) Plot the longitudinal tensile strength of an E-glass/epoxy...
322 Words | 1 Page
• Youngs Modulus And Poissons RatioSolid Mechanics
﻿ Young’s Modulus and Poisson’s Ratio Solid Mechanics Lab #2 Hyungjun Kang 00939822 9/9/2014 Purpose: 1. To investigate the effect and relationships of tensile and lateral strain on a specimen. 2. To gain knowledge in use of the instrumentation to conduct the above investigation. Introduction: The objective of this experiment is to demonstrate the relationships of a lateral and longitude strain on a common sample of aluminum within the elastic range .The sample is initially...
622 Words | 6 Pages
• Engineering Lab Report Sample, Master's Student
Precipitation hardening in 2024 Aluminum Lab Report Abstract “Age or Precipitation Hardening” effects on the 2024 Aluminum sample (Al-4%Cu) was investigated by conducting two sets of experiments on 5 samples. In the first experiment, 4 of the samples were artificially aged, and in the second experiment, only one of the 5 samples were naturally aged. In conclusion, it is concluded that the hardness of the samples is directly affected by the time and the temperature of the age hardening, so as...
1,808 Words | 8 Pages
• Report Writing for Materials in Practice
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3,645 Words | 13 Pages
• Effect of Heat Treatment Method in Minimizing the Residual Stress Level in Cold Drawn Welded Tubes (Cdw/Dom)
Abstract: Conventionally cold drawn welded tubes are stress relieved in a roller hearth furnace. In this study, induction stress relieving is compared with the conventional method for plain carbon steels. Technical comparison between the two methods is conducted by mechanical properties measurement and residual stress analysis by X-ray diffraction method. Introduction: Residual stress is a macroscopic stress that is set up within a metal during non-uniform plastic deformation, as in...
1,684 Words | 11 Pages
• Portal Frame Analysis - 2770 Words
University of Manchester University of Manchester NISHANT AGARWAL The report primarily discusses results obtained from the conducted experiments and includes computed data from the Kingston computer program. The value of the plastic moment capacity of each experiment was obtained; Obtained value was used to find the yield strength of the structures and compare them to typical values for mild steel. The important data is summarized in a table; followed by a list of important...
2,770 Words | 11 Pages
• Topic 7 - 431 Words
Seminar Sheet 7.1 Problem 1: A brass rod (E = 110GPa) is 1.5m long and 3cm in diameter. A force of 70kN is applied. What is the extension? Problem 2: Distinguish between the terms strength, toughness, ductility, and hardness as used to describe the mechanical properties of materials. What material property defines each of these characteristics? Problem 3: In the diagram above, identify the elastic and plastic regions, estimate the Modulus of Elasticity, the Ultimate Tensile Strength, the Yield...
431 Words | 2 Pages
Advantages of Carbon fibre reinforcement polymer (CFRP) Carbon fibre reinforcement polymer (CFRP) is an extremely strong and light which contains carbon fiber. Carbon Fibre Reinforced Polymer (CFRP) composite have been widely used in various applications especially used in the fabrication of aerospace structures and formula one body structures. Because of their low density, high strength and rigidity, excellent resistances to impacting and corrosion, CFRPs are widely applicable in various...
456 Words | 2 Pages
• material use in engine block
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626 Words | 3 Pages
• Mechanical Properties of Materials - 1036 Words
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• Carbon Fiber - 1240 Words
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1,240 Words | 4 Pages
• Engineering Materials Week 5
﻿Engineering Materials Week 5 8.9 Calculate the maximum internal crack length allowable for a Ti-6Al-4V titanium alloy component that is loaded to a stress one-half of its yield strength. Assume that the value of Y is 1.50. 8.23 Cite five factors that may lead to scatter in fatigue life data. Specimen fabrication and surface preparation, metallurgical variables, specimen alignment in the test apparatus, variation in mean stress and variation in test cycle frequency. 8.29 For a cylindrical low...
158 Words | 1 Page
• DM LAB 1 1
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439 Words | 5 Pages
• Merization of Nylon - 2590 Words
Experiment 6: Interfacial polymerization of Nylon 6,10 Aim: (a) To synthesize unsupported membranes of Nylon 6,10 by unstirred interfacial step polymerization of hexamethylene diamine (HMDA) and sebacoyl chloride. To observe the quality of the nylon film produced as a function of the rate of removal and of the concentrations of diamine and diacid chloride in their respective phases. (b) To study the tensile properties of the synthesized collapsed film and compare it to the tensile properties of...
2,590 Words | 11 Pages
• Engineering Materials Week 3 Interactiv
﻿Engineering Materials Week 3-Interactvivty 5.1 Rank the magnitudes of the diffusion coefficients from greatest to least for the following systems: N in Fe at 700C, Cr in Fe at 700C, N in Fe at 900C, Cr in Fe at 900C Now justify this ranking. (Note: Both Fe and Cr have the BCC crystal structure, and the atomic radii for Fe, Cr, and N are 0.124, 0.125, and 0.065 nm, respectively. Answer:The diffusion coefficient magnitude ranking is as follows: N in Fe at 900C;N in Fe at 700C; Cr in Fe at 900C;...
281 Words | 1 Page
• 16I3EFFECT OF PROCESS PARAMETERS ON MEC
International Journal of Advances in Engineering & Technology, July 2011. ©IJAET ISSN: 2231-1963 EFFECT OF PROCESS PARAMETERS ON MECHANICAL PROPERTIES OF THE INVESTMENT CASTINGS PRODUCED BY USING EXPANDABLE POLYSTYRENE PATTERN Nikhil Yadav1 and D. B. Karunakar2 1 2 M.Tech Scholar, Mechanical & Industrial Engg. Deptt., IIT Roorkee, Roorkee, India Assistant Professor, Mechanical & Industrial Engg. Deptt., IIT Roorkee, Roorkee, India ABSTRACT The present study is concerned with the...
4,244 Words | 27 Pages
• RC Beam Design - 1574 Words
RC Beam Design CE 433 – Spring 2010 T. Bart Quimby, P.E., Ph.D. UAA Civil Engineering The Flexural Design Inequality ACI 318-08 9.1: Structural members are required to have design strengths in excess of the required strengths Mu < φMn Req’d Mn = Mu/φ < Mn Required Strength, Mu Use load combinations in ACI 318-08 9.2 Design Strength, φMn. φ =Reduction factor from ACI 318-08 9.3 Mn = nominal flexural strength using principles of strain compatibility & equilibrium UAA Civil...
1,574 Words | 12 Pages
• Physics Laboratory Test Results
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2,861 Words | 9 Pages
• Investmnet Casting - 1852 Words
Failure of Knuckle Joint in Tractor with Trolley, Design and Make Better Knuckle Joint A SEMINAR REPORT Submitted by SORATHIYA GHANSHYAM D. In fulfilment for the award of the degree of BACHELOR OF ENGINEERING in MECHANICAL ENGINEERING GOVERNMENT ENGINEERING COLLEGE, BHAVNAGAR, GUJARAT TECHNOLOGICAL UNIVERSITY, AHMEDABAD December, 2011 GOVERNMENT ENGINEERING COLLEGE, BHAVNAGAR, MECHANICAL ENGINEERING 2011 CERTIFICATE Date: 13-12-2011 This is to...
1,852 Words | 11 Pages
• material - 793 Words
﻿HES1230 Materials and Processes Materials and Processes Selection Assignment Members: Lim Yu Rong () Buwanguzi Yusuf (4328752) Cantona Chhoa Hua Fung (4317262) Eric Ting Wei Xiang (4316614) Date of Submission: 19th May 2014 Table of content Content Pages Sports and recreation equipment selection Selection 1: Bicycle frame Brief description Properties required Selected material: Carbon fibre Introduction Advantages and disadvantages compared to other materials...
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• Selecting Materials - 726 Words
﻿ Contents Front cover Contents page Introduction Visual Inspection Hounsfeild Tensometer Torsion Tensile Tester Vickers Hardness Tester. Summery introduction This project will go into depth of the usage of material selection. After being paired with a fellow student we were given the task of testing 0.1% Carbon Steel, 0.4% heat treated steel along with a unknown specimen. To test these materials I will be using 4 types of methods Visual Inspection Hounsfeild...
726 Words | 4 Pages
• Dieless Forming Using 3D Printer Of Carbon Fibre Reinforced Plastic Parts
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• Materials and Manufacture Lab - 5196 Words
Overview of CES EduPack 2011 Materials and Process Information Science Notes Interactive Materials Property Charts Three levels of database, from an introductory teaching resource to a comprehensive project tool covering 3,000 materials. Textbook-style explanations with further reading references to books by Ashby, Askeland, Callister, Shackelford and more... Unique tools to compare and analyze properties and to select materials and processes. Eco Audit Tool Specialist Databases...
5,196 Words | 35 Pages
• Heat Treatment of Aluminium - 2134 Words
Abstract Precipitation hardening, or age hardening, provides one of the most widely used mechanisms for the strengthening of metal alloys. It influences some properties of the alloys such as strength, hardness and ductility. The purpose of this experiment was to test the effect of temperature and aging time on strength and hardness of 6060 aluminium alloy samples that have roughly similar compositions by subjecting them to different temperatures for different periods of time. The experiment...
2,134 Words | 9 Pages
• Mod 6 Easa B1.1
Module 06 - EASA Questions 1. The property of a metal to resist deformation when subjected to a tensile load and is proportional to the maximum stress required to cause fracture: a. Tenacity. b. Toughness. c. Tensile strength. 2. The ability of a metal to resist wear and penetration is defined as: a. Hardness. b. Toughness. c. Bearing strength. 3. What is the strain of a 1.2m tube which as extended 15mm? a. 0.0125. b. 0.0125Nm-2. A Load (N) B C D Extension (m)...
7,281 Words | 38 Pages
• Polymer Lab - 1013 Words
Materials and Manufacturing 2 Processing and testing of polypropylene Part A. Injection molding of polypropylene samples for mechanical testing. Introduction Injection molding is the most productive and popular polymer processing techniques. Almost 70% of all plastic parts are made using injection molding. Injection molding of plastics is a process similar to die casting of metals. Molten polymer is injected under pressure into a mold. Method Put the plastic material...
1,013 Words | 4 Pages
• Department Of Civil EngineeringGH Raisoni College
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6,600 Words | 41 Pages
• uniaxial - 3921 Words
Department of Civil Engineering CIVL 2002 Engineering Geology & Rock Mechanics (2013-2014, Semester 1) Laboratory Session 2 BRAZILE TEST XING BODONG 3035022904 Subclass Group C November 10, 2013 The University of Hong Kong   Abstract The Brazil test is intended to measure the uniaxial tensile strength of prepared rock specimens indirectly. It is an indirect tensile testing of rock. The Brazil test provides an alternative to direct tensile...
3,921 Words | 14 Pages
• Channeline Brochure - 7412 Words
GRP STRUCTURAL LINING SYSTEMS For large diameter Circular and Non-circular Pipeline Rehabilitation © Copyright Channeline International Ltd. 11/2007 All rights reserved No part of this publication may be reproduced, copied, or distributed in any form including for databases, without the written permission of the publisher, nor may any part hereof be processed, duplicated or disseminated by electronic systems. Information and recommendations represent the state of knowledge at the time of...
7,412 Words | 62 Pages
• Chemistry Material Science Lab Consulting Report
Consulting Report Mechanical Properties Cold-Rolled Steel Student: Predrag Bogunovic STUDENT ID: 11807777 DATE: 4-APR-2014 1 TABLE OF CONTENTS 1 Introduction .................................................................................................................................... 2 2 Methods .......................................................................................................................................... 2 3...
498 Words | 3 Pages
• Spice Jet Written Test for Aircraft Technician: Materials and Hardware
Module 06. Materials & Hardware 01a. Aircraft Materials - Ferrous. Question Number. Option A. Option B. Option C. Correct Answer is. Explanation. Option A. Option B. Correct Answer is. Explanation. drill ground to 90 °, fast cutting speed. drill ground to 90 °, slow cutting speed. drill ground to 120 °, slow cutting speed. 2. How is a material galvanised?. Sprayed with nickel solution. Packed in a drum containing zinc dust and heated. Dipped in a bath...
33,853 Words | 495 Pages
• Icm11 Paper in Proceeding - 2986 Words
Available online at www.sciencedirect.com Available online at www.sciencedirect.com Procedia Engineering 10 (2011) 1232–1237 Procedia Engineering 00 (2011) 000–000 Procedia Engineering www.elsevier.com/locate/procedia ICM11 Statistic characteristics of fatigue properties in magnesium alloy S. Mohda,c, *, Y. Otsukab, Y. Miyashitab, Y. Mutohb a Department of Materials Science, Nagaoka University of Technology, 1603-1 Kamitomioka, Nagaoka 940-2188, Japan b Department of System...
2,986 Words | 10 Pages