ABSTRACT
In general, it might be difficult to estimating all the cost components that are assumed to be caused by a machined part. The result of improvement model can be used for estimating the cost and analysis, part scheduling, design of manufacturing cell and other manufacturing decision processes which is involve the economics consideration. Even though the scope of this attempt is limited to small-scale manufacturing cell, the concepts of costing have general applicability to all levels in manufacturing operations. By creating a software that can calculated the costing and others parameter is one of the solution. This software give the user some recommendation of the suitable cost, the cutting material and workpiece material can be used in manufacturing process for improvements. The result from the software shows that the cost can be minimised and the production rate can be maximised by using the expensive tool rather than cheap cutting tool such as insert (carbide).
Keywords: Cost, Tool life, Parameters, Cutting tool, Software.
ABSTRACT………………………………………………..
ACKNOWLEDGEMENTS……………………………………….
TABLE OF CONTENTS………………………………………..
LIST OF FIGURES……………………………………………
LIST OF TABLES…………………………………………….
NOMENCLATURE……………………………………………
1 INTRODUCTION…………………………………………..
1.1 Background and Context……………………………………
1.2 Aim and Objectives……………………………………….
1.3 Overview of Dissertation……………………………………
1.4 Summary……………………………………………..
2 LITERATURE REVIEW………………………………………
2.1 Cutting tool Materials……………………………………..
2.1.1 Types of Cutting Tool Material……………………………..
2.1.2 Insert Materials……………………………………….
2.1.3 Carbide Insert Technology………………………………..
2.2 Tool Wear and Tool life……………………………………
2.2.1 Mechanisms of wear…………………………………….
2.2.2 Types of wear………………………………………..
2.2.3 Parameters influence in Tool wear and Tool life…………………..
2.2.4 Journal related to Tool Wear and Tool Life……………………..
2.3 Machining Parameters……………………………………..
2.3.1 Cutting Speed………………………………………..
2.3.2 Feed Rate…………………………………………..
2.3.3 Depth of Cut…………………………………………
2.3.4 Machining Formula…………………………………….
2.3.5 Journal related to the machining parameters……………………..
2.4 Cutting Fluids…………………………………………..
2.4.1 Types of cutting fluid……………………………………
2.4.1.1 Cutting oils……………………………………….
2.4.1.2 Emulsifiable (Soluble) oils……………………………..
2.4.1.3 Chemical cutting Fluids……………………………….
2.5 Cost…………………………………………………
2.5.1 Fixed Cost…………………………………………..
Writing a Similar Assignment?
Get a Scholar-Written Paper Matched to Your Brief
Every order is handled by a degree-holding expert in your subject — written to your exact rubric, fully original, and delivered ahead of your deadline.
Start My Order2.5.2 Variable Cost…………………………………………
2.5.3 Economics of Metal Cutting Operations………………………..
2.5.3.1 Feed Selection…………………………………….
2.5.3.2 Cutting Speed Selection……………………………….
2.5.4 Journal related to the costs………………………………..
2.6 Software………………………………………………
2.6.1 CAD/CAM………………………………………….
2.6.2 CIMCO…………………………………………….
3 METHODOLOGY
3.1 The developed system model…………………………………
3.2 Formulae used in Machining Cost program………………………..
3.2.1 Cost Factors………………………………………….
3.2.2 Cutting Speed for Minimum Cost……………………………
3.2.3 Maximum production rate…………………………………
3.3 Cost Model for Cutting tools…………………………………
3.4 Creating Database for Cutting Tools
3.5 Integrating Database into Program……………………………..
3.5.1 Design Modelling………………………………………
3.5.2 Program Data…………………………………………
3.5.3 CIMCO Testing……………………………………….
3.5.4 Introduce software……………………………………..
4 RESULT AND DISCUSSION…………………………………..
5 CONCLUSION…………………………………………….
5.1 Summary……………………………………………..
5.2 Future Work……………………………………………
5.2.1 Limitations………………………………………….
5.2.2 Recommendations……………………………………..
REFERENCES……………………………………………….
APPENDIX 1 – Tool Table……………………………………….
APPENDIX 2 – Operation Summary…………………………………
APPENDIX 3 – Calculation for Cost Model…………………………….
APPENDIX 4 – Installation guide for CIMCO Edit V7…………………….
Figure 1‑1: The production costs division.
Figure 2‑1: Kennametal insert identification system.
Figure 2‑3: Plot of experimental data on log-log graph paper.
Figure 2‑5: Factors which affect the cost of machining a part.
Stuck on Your Assignment?
Cola Papers Experts Are Ready Right Now
Join thousands of students who submit confidently. Human-written, plagiarism-checked, and formatted to your institution's exact standards.
Figure 2‑6: Effect of cutting speed on total cost of product.
Figure 2‑7: Cost component in a machining operation plotted as a function of cutting speed.
Figure 2‑8: Production time in a machining operation plotted as a function of cutting speed.
Figure 3‑1: Turning process in SolidWorks Software.
Figure 3‑2: SolidCAM operation
Figure 3‑3: Tool Sheet Extra Parameters
Figure 3‑4: WEEK_35_TURN_1_KBP_TURNING.NC data.
Figure 3‑5: CIMCO Edit Software.
Figure 3‑7: Selecting database
Figure 3‑8: Selecting cutting tool material and workpiece material.
Figure 3‑9: Selecting the NC part-program.
Figure 3‑10: The NC part-program appear in CIMCO.
Figure 3‑11: The list of the machine time produce by toolpath statistics for turning process.
Figure 3‑13: The machine time appeared in right side of the program.
Figure 3‑14: The Excel Database.
Figure 4‑1: Tool Cost against Cutting Tools
Figure 4‑2: Cutting Speed, meter per minutes.
Figure 4‑3: Tool life, minutes per edges.
Figure 4‑4: Machine Time, minutes per part.
Table 2‑1: Insert material and their characteristics.
Table 2‑2: Carbide insert grades and machining applications.
Table 2‑3: Allowable average wear lands for cutting tools in various operations.
Table 2‑4: Various of cutting tool materials with typical range of n values.
Table 2‑5: Shop Formula for Turning, Milling and Drilling – English Units
Table 2‑6: Cutting Fluid for Various Materials and Operations.
Table 3‑1: Results of machinability test – example
Table 3‑2: Time and cost data – example
Table 3‑3: Labour rate data – example
Table 4‑1: The result of calculation for HSS and Carbide.
Our Key Guarantees
- ✓ 100% Plagiarism-Free
- ✓ On-Time Delivery
- ✓ Student-Friendly Pricing
- ✓ Human-Written Papers
- ✓ Free Revisions (14 days)
- ✓ 24/7 Live Support