IJCRT( ISSN: 2320-2882 ) | UGC Approved Journal

INTERNATIONAL JOURNAL OF CREATIVE RESEARCH THOUGHTS

International Peer Reviewed, Open Access Journal

ISSN: 2320-2882 | Impact factor: 5.97 | ESTD Year: 2013

ISSN Approved and 5.97 Impact Factor.

Impact Factor
5.97
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The International Journal of Creative Research Thoughts (IJCRT) aims to explore advances in research pertaining to applied, theoretical and experimental Technological studies. The goal is to promote scientific information interchange between researchers, developers, engineers, students, and practitioners working in and around the world.


Indexing In Google Scholar, ResearcherID Thomson Reuters, Mendeley : reference manager, Academia.edu, arXiv.org, Research Gate, CiteSeerX, DocStoc, ISSUU, Scribd, and many more

International Journal of Creative Research Thoughts (IJCRT)
ISSN: 2320-2882 | Impact Factor: 5.97 | 5.97 impact factor and ISSN Approved.
Provide DOI and Hard copy of Certificate.
Low Open Access Processing Charges. 1500.
Call For Paper (Volume 6 | Issue 4 | Month- October 2018)

Volume 6 | Issue 4

  Paper Title: APPLICATION OF FIBER LASERS FOR CUTTING OF CFRP COMPOSITES

  Publisher Journal Name: IJCRT

  DOI Member: 10.6084/m9.doi.one.IJCRT1893351

  Your Paper Publication Details:

  Published Paper ID: - IJCRT1893351

  Register Paper ID - 191135

  Title: APPLICATION OF FIBER LASERS FOR CUTTING OF CFRP COMPOSITES

  Author Name(s): Jai Paul Dudeja

 Publisher Journal name: IJCRT

 Volume: 6

 Issue: 4

 Pages: 519-527

 Year: October 2018

 Downloads: 6

 Abstract

There is an increasing trend to use products manufactured from the Carbon Fiber Reinforced Plastics or Carbon Fiber Reinforced Polymer (CFRP) composites in the industry like aerospace, automotive, sports, medical, renewable energy etc. It is because of the lighter weight, higher strength, hence, higher strength-to-weight ratio of these materials, their higher corrosion resistance, higher fatigue resistance etc. Manufacturing of products from CFRP composites need precise machining, including cutting. Cutting of these materials is very difficult and inefficient with non-laser traditional techniques. Using continuous wave (cw) or pulsed fiber lasers solves many of these limitations of cutting CFRP composites. These processes have been optimized by many researchers for reducing the heat affected zones (HAZ) by optimizing the laser parameters like its power, pulse duration, feeding speed etc. Finally the environmental hazards of laser-based cutting of CFRP composites and the safety measures are also discussed in this paper.


Licence: creative commons attribution 4.0

  License

Creative Commons Attribution 4.0 and The Open Definition

 Keywords

Laser cutting, CFRP composites, Carbon Fiber Reinforced Plastics, Polymers.

  License

Creative Commons Attribution 4.0 and The Open Definition

  Paper Title: MICROMACHINING OF POLYMERIC BIO-MEMS WITH LASERS

  Publisher Journal Name: IJCRT

  DOI Member: 10.6084/m9.doi.one.IJCRT1893349

  Your Paper Publication Details:

  Published Paper ID: - IJCRT1893349

  Register Paper ID - 191120

  Title: MICROMACHINING OF POLYMERIC BIO-MEMS WITH LASERS

  Author Name(s): Jai Paul Dudeja

 Publisher Journal name: IJCRT

 Volume: 6

 Issue: 4

 Pages: 501-510

 Year: October 2018

 Downloads: 32

 Abstract

The development of MEMS has been driven by the need for miniaturization and lowering the overall manufacturing cost. The field of MEMS is concerned with the development of integrated systems of sensors, actuators and associated electronics. Even though the electronics industry provides an economy of scale for the silicon industry, crystalline silicon is still a complex and relatively expensive material to produce. The development of polymer micromachining technologies that complement traditional silicon approaches has enabled the broadening of microelectromechanical systems (MEMS) applications. Polymeric Bio-MEMS (Biomedical Micro-Electro-Mechanical Systems) have great potential in their current and future applications which include genomics, proteomics, molecular diagnostics, point-of-care diagnostics, tissue engineering, single cell analysis and implantable micro-devices. The polymeric materials are very fragile and not rigid which restrict their manufacturing processes. To minimize many such problems, excimer lasers and femtosecond lasers have been used for the precise micromachining of Bio-MEMS, the details of which are discussed in this paper.


Licence: creative commons attribution 4.0

  License

Creative Commons Attribution 4.0 and The Open Definition

 Keywords

excimer laser, femtosecond laser, micromachining, polymers, MEMS, Bio-MEMS

  License

Creative Commons Attribution 4.0 and The Open Definition



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About IJCRT

The International Journal of Creative Research Thoughts (IJCRT) aims to explore advances in research pertaining to applied, theoretical and experimental Technological studies. The goal is to promote scientific information interchange between researchers, developers, engineers, students, and practitioners working in and around the world.


Indexing In Google Scholar, ResearcherID Thomson Reuters, Mendeley : reference manager, Academia.edu, arXiv.org, Research Gate, CiteSeerX, DocStoc, ISSUU, Scribd, and many more

International Journal of Creative Research Thoughts (IJCRT)
ISSN: 2320-2882 | Impact Factor: 5.97 | 5.97 impact factor and ISSN Approved.
Provide DOI and Hard copy of Certificate.
Low Open Access Processing Charges. 1500.
Call For Paper (Volume 6 | Issue 4 | Month- October 2018)

ISSN and 5.97 Impact Factor Details
ISSN
ISSN
ISSN: 2320-2882
Impact Factor: 5.97 and ISSN APPROVED
Journal Starting Year (ESTD) : 2013
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