FEA of Micro-Hole Drilling in Stainless Steel Based on DEFORM-3D

Quan Sun; Bo Gao; Chong Chang Yang; Bing Bing Chen

doi:10.4028/www.scientific.net/AMR.531.566

Paper Titles

Research of the Image-Based Automatic Identification of the High-Strength Al-Alloy Grain Size
p.547

Numerical and Experimental Study of the Mechanical Properties of Photonic Crystal Film
p.554

Investigate on the Research of the Constructional Material-Recycled Aggregate Concrete
p.558

Methods of Support Vector Machine on Classification of Expansive Soils
p.562

FEA of Micro-Hole Drilling in Stainless Steel Based on DEFORM-3D
p.566

Optimizing High Harmonic Generation in Hollow Core Photonic Crystal Fiber as New Optical Waveguide Materials
p.571

Study on Deformation Behavior of Bucket Foundation with Marine Soft Soil Materials under Horizontal Loading
p.575

Liquid Crystalline Polyurethane Elastomers Containing Mesogenic Azobenzene Pendant Groups for Photomechanical Actuators
p.580

The Research of Composite Solar and Wind Energy Materials Generator
p.584

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 531FEA of Micro-Hole Drilling in Stainless Steel...

FEA of Micro-Hole Drilling in Stainless Steel Based on DEFORM-3D

Abstract:

In order to better understand the micro-hole cutting processes in stainless steel, the cutting process of 1Cr18Ni9Ti stainless steel was modeled and simulated by FEA (Finite Element Analysis) based on DEFORM-3D software. The influence of rotation speed and feed speed on the thrust force and torque of 1Cr18Ni9Ti stainless steel were analyzed. Meanwhile, the comparisons of simulated results and theoretical calculation results were taken into consideration. It is found that the simulation data from DEFORM-3D agreed well with the theoretical calculation results. It confirms that the results of simulation based on DEFORM-3D have a high level of reliability. The findings of the present study provide a new way to systematically investigate the stainless steel micro-hole drilling process.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Advanced Materials Research (Volume 531)

Pages:

566-570

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.531.566

Citation:

Cite this paper

Online since:

June 2012

Authors:

Quan Sun, Bo Gao, Chong Chang Yang, Bing Bing Chen

Keywords:

Cutting Torque, DEFORM-3D, Finite Element Analysis (FEA), Micro-Hole, Stainless Steel (SS), Thrust Force

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Wang Xiao, Lu Shubin, Gao Chuan-yu. Research on Finite Element Modeling Techniques of Metal Cutting [J]. Coal Mine Machinery, 2006, 27 (11): 51-54.

Google Scholar

[2] ZHANG Zhen-xiang, ZHANG Jin-ming, WANG Lai-qian. FEA of Cutting Force of Stainless Steel Based on DEFORM-3D [J]. Light Industry Machinery, 2011, 29(4): 40-42.

Google Scholar

[3] Gao Xingjun, Li Ping, Yan Pengfei, Zou Ping. Simulation of Stainless Steel Drilling Mechanism Based on Deform-3D [J]. Tool Engineering, 2011, 45(4): 17-20.

Google Scholar

[4] Yang jun, Zhou liping, Wu Nengzhang. Simulation of Drilling Force Based on Software Deform 3D [J]. Tool Engineering. 2007, (04): 50-53.

Google Scholar

[5] Li Tao, Gu lizhi. Key Techniques of Finite Element Simulation in Metal Cutting Process and Some Considerations [J]. Tool Engineering. 2008, (12): 14-18.

Google Scholar

[6] Wu Jian, Han Rongdi. Experimental Study in Dry Drilling Austenitic Stainless Steel 1Cr18Ni9Ti [J]. Tool Engineering, 2008, 42(11): 12-15.

Google Scholar

[7] Zhang Zhiyi, Gao Bo, Xu Guocheng, Wang Hongchao. Spade Drill Instead of Twist Drill to Improve the Machining Efficiency of Connecting Rod [J]. Metal Cutting, 2010, 21: 47-49.

Google Scholar