Assembly and programming of a micro-compression platform with in-situ imaging system

Materials are compressed with the objective of determining their mechanical properties, when subjected to various loads. While ductile materials have no definite compressive strength, brittle materials depend greatly on compression test for its elastic and compressive fracture measurement. Current m...

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Main Author: Lee, Judy Qian Hui.
Other Authors: School of Mechanical and Aerospace Engineering
Format: Final Year Project
Language:English
Published: 2010
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Online Access:http://hdl.handle.net/10356/40324
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-403242023-03-04T19:07:22Z Assembly and programming of a micro-compression platform with in-situ imaging system Lee, Judy Qian Hui. School of Mechanical and Aerospace Engineering Yang Jinglei DRNTU::Engineering::Manufacturing::Product engineering Materials are compressed with the objective of determining their mechanical properties, when subjected to various loads. While ductile materials have no definite compressive strength, brittle materials depend greatly on compression test for its elastic and compressive fracture measurement. Current market designs of compression tester are largely for heavy duty purposes, limited tester cater for micro-compression test. Moreover, the market designs are lacking in important functions such as capturing image of the specimen-under-test for better analysis of the material. Hence, the project of designing a micro-compression setup fixed on a 3-D translation stage with displacement actuator, load cell and imaging system was initiated. By designing and fabricating some of the hardware parts, coupled with the purchase of necessary equipments, a micro-compression set-up was built. The system is capable of compressing up to a load of 44.5N, from just 0.05μm to 25mm with a velocity of up to 1.5mm/sec. The image capturing system has a resolution of 2452 (H) x 2054 (V) and a frame rate of 15fps and provides magnification up to 250X. After assembling all the components, a program was written for the system. The program controls the devices and provides readings and images during the compression test. However, the system has its own limitations in the limited range of velocities and unstable sampling rate. This report will present the insights on the design and programming of the micro-compression system as well as providing a peek of what the system can offer in terms of the test results, lastly, the report will discuss the limitations and improvement of the system. Bachelor of Engineering (Mechanical Engineering) 2010-06-14T08:40:41Z 2010-06-14T08:40:41Z 2010 2010 Final Year Project (FYP) http://hdl.handle.net/10356/40324 en Nanyang Technological University 93 p. application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic DRNTU::Engineering::Manufacturing::Product engineering
spellingShingle DRNTU::Engineering::Manufacturing::Product engineering
Lee, Judy Qian Hui.
Assembly and programming of a micro-compression platform with in-situ imaging system
description Materials are compressed with the objective of determining their mechanical properties, when subjected to various loads. While ductile materials have no definite compressive strength, brittle materials depend greatly on compression test for its elastic and compressive fracture measurement. Current market designs of compression tester are largely for heavy duty purposes, limited tester cater for micro-compression test. Moreover, the market designs are lacking in important functions such as capturing image of the specimen-under-test for better analysis of the material. Hence, the project of designing a micro-compression setup fixed on a 3-D translation stage with displacement actuator, load cell and imaging system was initiated. By designing and fabricating some of the hardware parts, coupled with the purchase of necessary equipments, a micro-compression set-up was built. The system is capable of compressing up to a load of 44.5N, from just 0.05μm to 25mm with a velocity of up to 1.5mm/sec. The image capturing system has a resolution of 2452 (H) x 2054 (V) and a frame rate of 15fps and provides magnification up to 250X. After assembling all the components, a program was written for the system. The program controls the devices and provides readings and images during the compression test. However, the system has its own limitations in the limited range of velocities and unstable sampling rate. This report will present the insights on the design and programming of the micro-compression system as well as providing a peek of what the system can offer in terms of the test results, lastly, the report will discuss the limitations and improvement of the system.
author2 School of Mechanical and Aerospace Engineering
author_facet School of Mechanical and Aerospace Engineering
Lee, Judy Qian Hui.
format Final Year Project
author Lee, Judy Qian Hui.
author_sort Lee, Judy Qian Hui.
title Assembly and programming of a micro-compression platform with in-situ imaging system
title_short Assembly and programming of a micro-compression platform with in-situ imaging system
title_full Assembly and programming of a micro-compression platform with in-situ imaging system
title_fullStr Assembly and programming of a micro-compression platform with in-situ imaging system
title_full_unstemmed Assembly and programming of a micro-compression platform with in-situ imaging system
title_sort assembly and programming of a micro-compression platform with in-situ imaging system
publishDate 2010
url http://hdl.handle.net/10356/40324
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