optimization in thermal friction drilling for sus304l stainless steel

optimization in thermal friction drilling for sus304l stainless steel

With the exploration and innovation of company people, gradually formed four major advantageous products: steel plate, steel pipe, stainless steel, special steel.

  1. Optimization in thermal friction drilling for SUS 304 optimization in thermal friction drilling for sus304l stainless steel

    The main purpose of this research is to develop a new type of thermal friction drill made of sintered carbide. In addition, to optimize the machining process of the thermal friction drilling using Taguchi method is explored. The experiments were conducted on a 30 30 2 mm SUS 304 stainless steel plate.

  2. Experimental and Thermo-Mechanical Modeling Optimization of optimization in thermal friction drilling for sus304l stainless steel

    The main objective of the present research is to investigate experimentally and analytically, using experimental design method coupled with Fuzzy Logic technique, the optimal parameters combination of the thermal friction drilling. AISI 304 stainless steel sheet material is employed for drilling by using tungsten carbide tools.

  3. Optimization and thermal analysis of Friction Drilling on optimization in thermal friction drilling for sus304l stainless steel

    Optimization and thermal analysis of Friction Drilling on Aluminium and Mild Steel by using Tungsten Carbide Tool Sushant Sunil Patil 1, Vinayak Bembrekar2 1Asst.Prof, Dept. of Mechanical Engineering, D.Y.Patil College of Engg. Akurdi, SPPU University, Pune, India 2 Asst.Prof Dept. of Mechanical Engineering, D.Y.Patil College of Engg. Akurdi optimization in thermal friction drilling for sus304l stainless steel

  4. (PDF) Thermal Friction Drilling: (A Review) - ResearchGate

    Thermal Friction Drilling: (A Review) optimization in thermal friction drilling for sus304l stainless steel The mechanical and thermal aspects of friction drilling are studied in this research. optimization in thermal friction drilling for sus304l stainless steel of the friction drilling process in stainless steel by means of optimization in thermal friction drilling for sus304l stainless steel

  5. Friction Drilling of Stainless Steel - YouTube

    Get YouTube without the ads. optimization in thermal friction drilling for sus304l stainless steel Friction Drilling of Stainless Steel Mohamed Alaa EL Dakrory. Loadingoptimization in thermal friction drilling for sus304l stainless steel Unsubscribe from Mohamed Alaa EL Dakrory? Cancel Unsubscribe.

  6. Turning and drilling of stainless steels, optimization of optimization in thermal friction drilling for sus304l stainless steel

    Turning and drilling of stainless steels, optimization of process parameters Presenter: Co-author: Dr. Denis Fofanov Deutsche Edelstahlwerke GmbH 1995-2001 Master degree in St. Petersburg State Polytechnical University, Russia, Physic of metals and alloys" 2002-2006 PhD in materials science, University of Hamburg

  7. Friction drilling of austenitic stainless steel by uncoated optimization in thermal friction drilling for sus304l stainless steel

    This is attributed to the adhesion and transfer of these two elements from the AISI 304 stainless steel workpiece. In friction drilling, most material transfer is observed to be from the workpiece to the tool . However, the distribution of these elements varied with the position where the scanning was made.

  8. Optimization of Machining Parameters in Drilling of Stainless optimization in thermal friction drilling for sus304l stainless steel

    done by using stainless steel. It is not easy to machine materials like austenitic stainless steel because of their high strength, high ductility and low thermal conductivity. This paper discusses the experimental study on performance characteristics of AISI 304 stainless steel during CNC drilling process.Factors like

  9. Machining characteristic study of friction drilling on AISI optimization in thermal friction drilling for sus304l stainless steel

    Download Citation on ResearchGate | Machining characteristic study of friction drilling on AISI 304 stainless steel | A no-chip drilling process was formed by thermal friction principle in which optimization in thermal friction drilling for sus304l stainless steel

  10. OPTIMIZATION OF CUTTING PARAMETERS FOR SURFACE ROUGHNESS OF optimization in thermal friction drilling for sus304l stainless steel

    OPTIMIZATION OF CUTTING PARAMETERS FOR SURFACE ROUGHNESS OF STAINLESS STEEL SS304 IN ABRASIVE ASSISTED DRILLING Sudha Kumari 1*, Kapil Kumar Goyal and Vivek Jain1 *Corresponding Author:Sudha Kumari, [email protected] This paper is concerned with optimization of surface roughness when drilling of stainless steel SS304 with HSS drill.

  11. Optimization of a numerical model of three-dimensional heat optimization in thermal friction drilling for sus304l stainless steel

    Optimization of additional welds is suggested so that correlations of the model parameters to weld velocity and spindle speed can be determined. Keywords: friction stir welding, FSW, optimization, 304L stainless steel. 1 Introduction Friction stir welding (FSW) is a solid state welding process in which a rotating

  12. Friction Drilling Dissertation6 - wumrc.engin.umich.edu

    Figure 2.2. Key dimensions of the friction drilling tooloptimization in thermal friction drilling for sus304l stainless steel.. 22 Figure 2.3. Thrust force and torque in friction drilling of AISI 1020 carbon steel sheet.23 Figure 2.4. Cross sectional view of deformation of the workpiece in friction drilling at

  13. Factors Affecting Friction Coating on Stainless Steel 304

    substrates. The copper deposit is easily buffed as is often M.Chandrasekaran, S.Jana carried out friction surfacing with stainless steel 304. V.I.Vitanov, I.I.Voutchkov studied the three state variables, that reflect coating quality were considered as a subject for optimization and in this context a target for process parameter

  14. Article: Frictional properties of stainless steels

    Frictional properties of stainless steels Introduction. Frictional coefficients are perhaps more dependent on surface rather than material properties. Surface finish, cleanliness and lubrication of the mating surfaces largely determine the actual frictional resistance between mating surfaces. Friction coefficients

  15. Optimization of process parameters of friction welding of UNS optimization in thermal friction drilling for sus304l stainless steel

    This article presents an approach based on Taguchi method and Grey relational analysis to optimize process parameters of friction welding of UNS31803 duplex stainless steel. The main objective is to maximize mechanical properties like tensile strength, hardness and impact toughness and to minimize corrosion rate.

  16. Experimental Evaluation and Optimization of Dry Drilling optimization in thermal friction drilling for sus304l stainless steel

    In dry drilling of AISI 304 austenitic stainless steel using HSS drill tool (Drilling test 1), hole number of 1 to 5 were successfully drilled but as feed rate was increased from 0.06 to 0.07 mm/rev for hole number 6, drill tool weared and was not able to drill the hole. Therefore holenumber 6 is a blind hole.It was concluded

  17. Optimization on Friction Welding of Aluminium Alloy 6082 T6 optimization in thermal friction drilling for sus304l stainless steel

    The present work was focused on optimization of Aluminium alloy-Stainless steel welds. Many intermetallic compounds are formed at the interface. This may lead to have a difference in mechanical properties of weld joints with respect to the varying parameters. Keywords - Friction welding, Austenitic stainless steel, Aluminum alloy.

  18. Experimental and Numerical Scott F. Miller Analysis of the optimization in thermal friction drilling for sus304l stainless steel

    are used to identify research needs and build the foundation for future friction drilling process optimization. DOI: 10.1115/1.2193554 1 Introduction Friction drilling, also known as thermal drilling, ow drilling, form drilling, or friction stir drilling, is a nontraditional hole-making method. The heat generated from friction between a ro-

  19. Thermal analysis of friction stir welded joint for 304l optimization in thermal friction drilling for sus304l stainless steel

    The research paper published by IJSER journal is about Thermal analysis of friction stir welded joint for 304l stainless steel material using ansys Mechanical APDL, published in IJSER Volume 6, Issue 5, May 2015 Edition.

  20. Design optimization of cutting parameters for turning of AISI optimization in thermal friction drilling for sus304l stainless steel

    Design optimization of cutting parameters for turning of AISI 304 austenitic stainless steel using Taguchi method Atul Kulkarni*, Girish Joshi & V G Sargade Department of Mechanical Engineering, Dr Babasaheb Ambedkar Technological University, Lonere 402 103, India Received 17 August 2012; accepted 1 April 2013

  21. Experimental Investigation and Design Optimization of Micro optimization in thermal friction drilling for sus304l stainless steel

    Experimental Investigation and Design Optimization of Micro Drilling Process Parameters of Austenitic Stainless Steel (Aisi 316) Sheets by Doe Concepts P.Marimuthu1 TTM.kannan2 S.Saravanan3 1 Principal & Professor, Department of Mechanical Engineering, Syed Ammal Engineering College, Ramanathapuram- 623 520, Tamilnadu, India.

  22. Friction Surfacing of Austenitic Stainless Steel on Low optimization in thermal friction drilling for sus304l stainless steel

    friction surfacing process. AISI 310 austenitic stainless steel is coated on low carbon steel substrate. The effects of traverse speed on the geometry, interfacial bond characteristics and mechanical properties of coatings are studied. Traverse speed was varied and rotational speed and axial load were fixed.

  23. AK Steel 304 Austenitic Stainless steel - MatWeb.com

    UNS S30400, AK Steel 304 is a variation of the basic 18-8 grade, Type 302. Lower carbon, in Type 304, minimizes chromium carbide precipitation due to welding and its susceptibility to intergranular corrosion.

  24. Improving Friction Stir Welding between Copper and 304L optimization in thermal friction drilling for sus304l stainless steel

    As a solid-state welding technology, friction stir welding (FSW) can join dissimilar materials with good mechanical properties. In this paper, friction stir welding between 304L stainless steel and commercially pure copper plates with thicknesses of 3 mm was performed.

  25. Evaluation of Mechanical Properties of 304L And 316L optimization in thermal friction drilling for sus304l stainless steel

    304L-304L and 316L-316L stainless steel plates were welded by the process of Friction-Stir Welding using a pin known as Q-60. Vickers Microhardness test was needed to further corroborate the micrographs seen in the OM, and as it was expected the hardness in the weld zone was increased by 30% to base metal for stainless steel 304L and a 26% the optimization in thermal friction drilling for sus304l stainless steel

  26. Forum Question: Coefficient of Friction for stainless steel optimization in thermal friction drilling for sus304l stainless steel

    According to the CRC Handbook for Applied Engineering Science, the coefficient of friction (CF) for steel on steel can differ significantly from stainless on stainless and stainless on steel. I'll quote a few data points for you below, and you can draw your own conclusions.

  27. NSGA-II Approach of Optimization to Study the Effects of optimization in thermal friction drilling for sus304l stainless steel

    non-linear regression in RSM. In this study the optimization of multi-objective responses approach has been adopted. NSGA II has been employed in multi-responses to find the optimal parametric combination and best fitness curve for the process parameters in drilling of AISI-304 stainless steel. The present investigations helps the

  28. Numerical simulation of transient temperature and residual optimization in thermal friction drilling for sus304l stainless steel

    temperature and residual stress in a friction stir welded plate of 304L stainless steel. Based on the experimental records of transient temperature at several specic locations during the friction stir welding process for the 304L stainless steel, an inverse analysis method for thermal numerical simulation is developed. After the transient optimization in thermal friction drilling for sus304l stainless steel

  29. Friction Stir Welding of Ferrous and Nickel Alloys

    Friction Stir Welding of Ferrous and Nickel Alloys Carl D. Sorensen and Tracy W. Nelson Department of Mechanical Engineering, Brigham Young University FRICTION STIR WELDING (FSW) is a solid-state joining process invented by The Welding Institute of Cambridge, England (Ref 1). In the FSW process, a rotating tool contain-

  30. Review of the Effects of Friction Stir Welding Speed on optimization in thermal friction drilling for sus304l stainless steel

    paper, the main discussion was about stainless steel 304L and investigated the effects of friction stir welding speeds. Finally, a brief discussion was presented to summarize the effects of speed on friction stir welding. Index Terms304L, friction stir welding, FSW, speed stainless steel. I. I. NTRODUCTION

  31. optimization in thermal friction drilling for sus304l stainless steel

    optimization in thermal friction drilling for sus304l stainless steel pipe optimization in thermal friction drilling for sus304l stainless steel appliances optimization in thermal friction drilling for sus304l stainless steel sink optimization in thermal friction drilling for sus304l stainless steel refrigerator optimization in thermal friction drilling for sus304l stainless steel iron optimization in thermal friction drilling for sus304l stainless steel pan optimization in thermal friction drilling for sus304l stainless steel metal optimization in thermal friction drilling for sus304l stainless steel cookware

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