Material compression test lab report

DNT 251- Mechanics Of Materials Laboratory Module. To understand the concept of mechanical properties of solid materials. To construct the stress-strain diagram based on Universal Testing Machine data.

This report summarizes the of a series of compression tests of U-10Mo alloy conducted at the . There must not be any new material. References Document the references considered in preparing the report.

REPORT REQUIREMENTS: (1) Stress versus strain plots from MTS data file complete with: Curve Fitting to obtain Tangent Modulus Labels and Title (2) . Procedures………………… ……………………………………………………. This laboratory includes three separate materials testing experiments to be done on spaghetti of at least different. To conduct compression test on a specimen using a universal testing machine (UTM) to determine ultimate compressive strength of the material. When a material is subjected to compressive loading, the relationship between stress and strain is similar to that obtained for a tensile . Tension test is normally conducted to obtain the mechanical properties of Metals. It is the primary test used for quality control and the basis for acceptance and refusal of metallic products used in construction and other uses.

Nature of deformation and fracture is quite different from that in tensile test.

Brittle materials are generally weak in tension but strong in compression. Compression test is just opposite in nature to tensile test. Hence this test is normally performed on cast iron . Fritz Laboratory Reports by an authorized administrator of Lehigh Preserve. Associate Professor of Engineering Materials.

Civil engineering Materials Testing Laboratory. Department of Civil Engineering. COMPRESSION TEST REPORT. COMSATS Institute of Information Technology. Lab Report : Testing of Wood.

The goal of this lab is to help provide better understanding of the properties of wood. This will enable the calculations of the modulus of . Some materials behave nearly the same in compression as they do in tension. Ductile metals are a good example.

Other materials behave much differently when subjected to . Shape of the specimen: The shape of the machine to be used for the different materials are as follows: (i) For metals and certain plastics: . TI1e compression test on concrete cubes and cylinders is the most commonly used test.

Regional Laboratories of the Materials Division. The evaluation of the mechanical behavior of a sample under conditions of tension and compression can be performed to provide basic material property data that is critical for component design and service performance assessment. The requirements for tensile and compression strength values and the methods for testing.

The tension test is the most commonly used method to evaluate the mechanical properties of metals. Its main objective is the determination of properties related to the elastic .