ABSTRACT
The process involved in the design and fabrication of a creep material testing equipment ranges from carrying out the feasibility studies of the project to the designed and especially of ensuring its functionality. Since it is used in the testing of failure of material under loading, different engineering principles employed in the design and fabrication includes bending moments and deflection of beam etc. the main objective of this project is to design a mechanical structure that can test the failure of substance hence creep s defined as the failure of substance under continuous loading. It also involves the cutting of the specimen that will be used to conducting the test.
After the completion of the different components of the machine, it is assembled and a test turn conducted.
As a result, it was finally observed that creep material testing equipment is used in determining the failure of material under continual loading.
TABLE OF CONTENTS
TITLE PAGE
LETTER OF TRANSMITAL
RELEASE PAGE
CERTIFICAITON
APPROVAL PAGE
DEDICAITION
ACKNOWLEDGEMENT
ABSTRACT
TABLE OF CONTENTS
CHAPTER ONE
1.0INTRODCUTION
1.10CREEP CONCEPT
1.11CREEP TESTING MACHINES
1.12THE PURPSOE OF THE PROJECT
1.13DEMAND FOR THE EQUIPMENT
1.14LITERATURE REVIEW
1.15KINDS OF PHENOMNA
1.16EXAMPLES
1.17MECHANISM
CHAPTER TWO
2.0DESCRIPTION OF APARATUS AND DESIGN THEORY
2.10STATIC EQUILIBRIUM CONDITION
2.11PRINCIPAL OF DEFLECTION IN CANTILEVER
2.12CANTILEVER WITH UNIFORMLY DISTRIBUTED LOAD W PER UNIT LENGTH
2.13BENDING ANALYSIS FOR A C-CHANNEL SECTION
CHAPTER THREE
3.0CALCUALTION
3.10CALCULATING THE MOMENT OF INERTIA OF THE C-SECTION USING GRAPHIC METHOD
3.11CALCULATION OF THE MAXIMUM LOAD
3.12CALCULATION THE BENDING MOMENT
CHAPTER FOUR
4.0FABRICATION
4.10EXPERIMENTAL PROCEDURE AND RESULT
4.11LEAD SPECIMEN AT OTHER TEMPERATURES
4.12METHOD OF ASSEMBLY
4.13PRINCIPAL OF OPERATION
CHAPTER FIVE
5.0BILL OF QUANTITIES
5.10POSSIBLE PROBLEMS OF CREEP TESTING EQUIPMENT AND RECOMMENDATION
5.11FUTURE OF THE TECHNOLOGY
5.12SCALE
5.13CONCLUSION
5.14REFERENCES