Author
Braham Prakash
Other affiliations: Tsinghua University
Bio: Braham Prakash is an academic researcher from Luleå University of Technology. The author has contributed to research in topics: Tribology & Tool steel. The author has an hindex of 26, co-authored 138 publications receiving 2336 citations. Previous affiliations of Braham Prakash include Tsinghua University.
Topics: Tribology, Tool steel, Lubrication, Lubricant, Bearing (mechanical)
Papers published on a yearly basis
Papers
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TL;DR: This review takes stock of the recent advances in research pertaining to different aspects of tribology within the last 2 to 3 years and presents future outlook pertaining to these aspects.
Abstract: The reach of tribology has expanded in diverse fields and tribology related research activities have seen immense growth during the last decade. This review takes stock of the recent advances in research pertaining to different aspects of tribology within the last 2 to 3 years. Different aspects of tribology that have been reviewed including lubrication, wear and surface engineering, biotribology, high temperature tribology, and computational tribology. This review attempts to highlight recent research and also presents future outlook pertaining to these aspects. It may however be noted that there are limitations of this review. One of the most important of these is that tribology being a highly multidisciplinary field, the research results are widely spread across various disciplines and there can be omissions because of this. Secondly, the topics dealt with in the field of tribology include only some of the salient topics (such as lubrication, wear, surface engineering, biotribology, high temperature tribology, and computational tribology) but there are many more aspects of tribology that have not been covered in this review. Despite these limitations it is hoped that such a review will bring the most recent salient research in focus and will be beneficial for the growing community of tribology researchers.
271 citations
TL;DR: Self-lubricating materials are becoming more widespread in fields like metal forming or power generation due to the inability to use conventional lubricants in high-temperature (HT) applications as discussed by the authors.
Abstract: Self-lubricating materials are becoming more widespread in fields like metal forming or power generation due to the inability to use conventional lubricants in high-temperature (HT) applications. I...
147 citations
TL;DR: In this paper, the wear resistance in dry rolling-sliding of nano-structured steels is significantly superior to that of bainitic steels transformed at higher temperatures with similar hardness values.
143 citations
TL;DR: In this paper, high temperature tribological studies on different tool steels (with and without surface treatment) sliding against high strength boron steel and studies on self-mated hardened high strength BORON steel under dry reciprocating sliding conditions have been conducted.
111 citations
TL;DR: In this paper, the performance of tool steels sliding against Al-Si-coated high-strength steel at elevated temperatures has been investigated by using a high-temperature version of the Optimol SRV reciprocating friction and wear tester at temperatures of 40, 400 and 800°C.
109 citations
Cited by
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TL;DR: In this article, the state of the art in the thermal, mechanical, microstructural, and technological fields of hot stamping is reviewed, and the investigations of all process sequences, from heating of the blank to hot stamps and subsequent further further processes are described.
1,397 citations
Journal Article•
1,178 citations
06 Apr 2016
TL;DR: Marshall has unique expertise in leveraging new digital tools, 3D printing, and other advanced manufacturing technologies and applying them to propulsion systems design and other aerospace materials to meet NASA mission and industry needs.
Abstract: Propulsion system development requires new, more affordable manufacturing techniques and technologies in a constrained budget environment, while future in-space applications will require in-space manufacturing and assembly of parts and systems. Marshall is advancing cuttingedge commercial capabilities in additive and digital manufacturing and applying them to aerospace challenges. The Center is developing the standards by which new manufacturing processes and parts will be tested and qualified. Rapidly evolving digital tools, such as additive manufacturing, are the leading edge of a revolution in the design and manufacture of space systems that enables rapid prototyping and reduces production times. Marshall has unique expertise in leveraging new digital tools, 3D printing, and other advanced manufacturing technologies and applying them to propulsion systems design and other aerospace materials to meet NASA mission and industry needs. Marshall is helping establish the standards and qualifications “from art to part” for the use of these advanced techniques and the parts produced using them in aerospace or elsewhere in the U.S. industrial base.
481 citations
TL;DR: All major pharmaceutical companies have realized the potential of drug nanocrystals and included this universal formulation approach into their decision trees and nanosuspensions are currently used at all stages of commercial drug development.
328 citations
TL;DR: In this paper, the authors highlight the future prospects of nanoparticles in the context of the lubricant industry and highlight the use of nano-scale particles for enhancing certain properties, such as friction and wear resistance.
296 citations