Manufacturing Processes for Operation Analysis - Process/Product Industrial Engineering - Value Engineering - Methods Engineering - Method Study - Job Analysis
Developments in Engineering Elements of Manufacturing Operations
Foundry
Principles of Foundry Technology
P. L. Jain
Tata McGraw-Hill Education, 2003 - Founding - 401 pages
Machining
Machining Operation Analysis and Improvement - Bibliography
https://nraoiekc.blogspot.com/2020/03/machining-operation-analysis-and.html
https://nraoiekc.blogspot.com/2020/03/machining-operation-analysis-and.html
Milling
Milling - Machining Elements for Productivity Analysis
News and Information to Facilitate Productivity Analysis of Machining Elements in Milling
https://nraoiekc.blogspot.com/2020/03/milling-machining-elements-for.html
Drilling
2011 - 2020 Drilling Operation Elements - News and Information for Industrial Engineering
2000-2010 Drilling Operation Elements - News and Information for Industrial Engineering
1991-2000 Drilling Operation Elements - News and Information for Industrial Engineering
Grinding
Grinding - Productivity Science and Productivity Engineering - Opportunities for 2020 and Beyond
https://nraoiekc.blogspot.com/2020/01/grinding-productivity-science-and.html
Grinding - Engineering News - Bibliography
https://nraoiekc.blogspot.com/2020/02/grinding-engineering-news-bibliography.html
Grinding Engineering News - Details
https://nraoiekc.blogspot.com/2020/02/grinding-engineering-news-details.html
CUTTING TOOLS - OPTIMISING THE MACHINING PROCESS WITH RIGHT CUTTING TOOLS
AUTHOR:JUILI EKLAHARE
Oct 18, 2019
https://www.industr.com/en/optimising-the-machining-process-with-right-cutting-tools-2391254
May 30 2019
Break through boundaries in aerospace tool design and discover new geometries with Element Six PCD round tool blanks.
https://www.azom.com/article.aspx?ArticleID=18086
Key Plant has manufactured automated can joining systems since 2002, to enable individual motorised adjustment of each axis under load, the work piece sections can be manipulated left, right, up, down (X, Y, Z axis) to join the cans together.
We manufacture linear precision systems with ball screw operation for smooth precision control and hydraulic options for thin wall material.
Key Plant ACJS systems helps reduce time & cost, increase customer productivity and gives a consistence to the fitting up and joining of cans.
https://www.keyplant.com/fit-up-growing-lines/
Cold heading - Value Engineering Benefits
https://www.medicaldesignbriefs.com/component/content/article/mdb/features/technology-leaders/35337Improvement of Manufacturing Technology for Thin-Walled Pipes Made of Copper Alloys
Thin-walled pipes made of copper alloys – the brass grades L96, L68, L63, LANKMc; the bronze grade BrOF (the GOST state standard) are of great demand in aircraft, shipbuilding, automotive, defense, diesel and instrument-making industries. Pipe diameter ranges between 4.0 and 20 mm, and wall thickness is in the range from 0.1 to 0.6 mm
Materials Science Forum (Volume 918)
March 2018
https://www.scientific.net/MSF.918.140
2017
A Study on Low-Cost Case Hardening of Mild and Alloy Steels Utilizing Cassava Leaf Media
https://ui.adsabs.harvard.edu/abs/2017PhDT.......181G/abstract
Low Cost Fabrication of ODS Alloys
Glenn Grant, Jens Darsell, David Catalini, Pacific Northwest National Laboratory
Anthony Reynolds, University of South Carolina
DOE-FE 27th Annual Review Meeting Fossil Energy Materials
Pittsburgh, PA, Jun 18-20, 2013
Robust Low Cost Aerospike/RLV Combustion Chamber by Advanced Vacuum Plasma Process
Publication Date: January 01, 1999
Study of powder metallurgy for producing high performance gears
http://powderstudy.blogspot.com/
Manufacturing Engineering & Technology
Will Craig & Ashley Leonard
Scientific e-Resources, 04-Oct-2019 - 352 pages
https://books.google.co.in/books?id=-eLEDwAAQBAJ
Modern Production Methods for Titanium Alloys: A Review
By Hamweendo Agripa and Ionel Botef
Published: August 24th 2019
https://www.intechopen.com/books/titanium-alloys-novel-aspects-of-their-manufacturing-and-processing/modern-production-methods-for-titanium-alloys-a-review
Additive manufacturing promising with AF-9628, a high-strength, low cost steel developed in AFRL
By Whitney Wetsig, Air Force Research Laboratory Corporate Communications / Published August 21, 2019
https://www.wpafb.af.mil/News/Article-Display/Article/1939571/additive-manufacturing-promising-with-af-9628-a-high-strength-low-cost-steel-de/
Batch Optimization of Process Parameters for Hot Working of High Nitrogen Stainless Steels and Thermodynamic Validation
Funder: European Commission (EC)
Grant number: 841108
Research organization
Technical University of Denmark, Denmark
Abstract
High nitrogen stainless steels are becoming an increasingly important new class of engineering materials due to its favorable combination of mechanical, chemical and physical properties: high strength and toughness, nickel-saving and excellent corrosion, which enable its application in extensive fields such as military, marine equipment, petrochemical, etc. Hot working of high nitrogen stainless steel is always the challenge to engineers and researchers due to the diversity of the hot working window, which is strongly affected by nitrogen content. Moreover, there are still open questions on nitrogen content effect on thermodynamic theories (e.g. dynamic recrystallization and stacking fault energy). The primary objective of this project is to develop a novel approach for batch optimization of hot working processes of high nitrogen stainless steels, validate the thermodynamic theories and transfer scientific results into application. A gradient model will be synthesized using chemical heat treatment to support the modelling and experiments in a mechanical processing area. Both modelling and experimental studies will be carried out in close collaboration with Sandvik (a world-leading manufacturer of stainless steel) and KTH, Royal Institute of Technology, Sweden (one of the world-leading universities on first-principles study of the stacking fault energies in advanced alloys). These international collaborations help to ensure that the project will be successfully completed and the findings of the project will be transferred to and implemented in industry. In broader terms, the project will contribute to the enhancement of traditional nitrogen alloying theory and improvement of manufacturing capacities of high nitrogen stainless steel, reducing the energy consumption and emission pollution, and thus helping to attain socioeconomic and environmental targets in the context of the EU 2020 vision.
Funding amount USD 251 K EUR 219 K
Funding period 2019 16 Nov ‐ 2021 15 Nov
https://app.dimensions.ai/details/grant/grant.8585029
3D-printed flexible stainless steel stronger than conventional steel
By Prachi Patel January 10, 2018
3D-printed flexible
A high-angle annular dark-field (HAADF) scanning transmission electron microscope image of solidification cellular structures after deformation of 316L stainless steel. Inset: Trapping of dislocations at the cell walls. Credit: Nature Materials.
Researchers have found a way to three-dimensionally (3D) print stainless steel that is 2–3× stronger than conventional steels while still remaining flexible. This additive manufacturing method could lead to rapid, low-cost manufacturing of everything from medical implants to parts for airplanes, nuclear power plants, and oil rigs.
https://www.cambridge.org/core/journals/mrs-bulletin/news/3d-printed-flexible-stainless-steel-stronger-than-conventional-steel
Machining and Grinding of Ultrahigh-strength Steels and Stainless Steel Alloys
Front Cover
C. T. Olofson, John A. Gurklis, F. W. Boulger, Battelle Memorial Institute
National Aeronautics and Space Administration; Available from the Clearinghouse for Federal Scientific and Technical Information, National Bureau of Standards, U.S. Department of Commerce, Springfield, Va., 1967 - Metal-cutting - 202 pages
https://books.google.co.in/books?id=2fc_AQAAMAAJ (Free E-Book)
General Information on Manufacturing Processes
Manufacturing Engineering & Technology
Will Craig & Ashley Leonard
Scientific e-Resources, 04-Oct-2019 - 352 pages
https://books.google.co.in/books?id=-eLEDwAAQBAJ
Modern Production Methods for Titanium Alloys: A Review
By Hamweendo Agripa and Ionel Botef
Published: August 24th 2019
https://www.intechopen.com/books/titanium-alloys-novel-aspects-of-their-manufacturing-and-processing/modern-production-methods-for-titanium-alloys-a-review
Additive manufacturing promising with AF-9628, a high-strength, low cost steel developed in AFRL
By Whitney Wetsig, Air Force Research Laboratory Corporate Communications / Published August 21, 2019
https://www.wpafb.af.mil/News/Article-Display/Article/1939571/additive-manufacturing-promising-with-af-9628-a-high-strength-low-cost-steel-de/
Batch Optimization of Process Parameters for Hot Working of High Nitrogen Stainless Steels and Thermodynamic Validation
Funder: European Commission (EC)
Grant number: 841108
Research organization
Technical University of Denmark, Denmark
Abstract
High nitrogen stainless steels are becoming an increasingly important new class of engineering materials due to its favorable combination of mechanical, chemical and physical properties: high strength and toughness, nickel-saving and excellent corrosion, which enable its application in extensive fields such as military, marine equipment, petrochemical, etc. Hot working of high nitrogen stainless steel is always the challenge to engineers and researchers due to the diversity of the hot working window, which is strongly affected by nitrogen content. Moreover, there are still open questions on nitrogen content effect on thermodynamic theories (e.g. dynamic recrystallization and stacking fault energy). The primary objective of this project is to develop a novel approach for batch optimization of hot working processes of high nitrogen stainless steels, validate the thermodynamic theories and transfer scientific results into application. A gradient model will be synthesized using chemical heat treatment to support the modelling and experiments in a mechanical processing area. Both modelling and experimental studies will be carried out in close collaboration with Sandvik (a world-leading manufacturer of stainless steel) and KTH, Royal Institute of Technology, Sweden (one of the world-leading universities on first-principles study of the stacking fault energies in advanced alloys). These international collaborations help to ensure that the project will be successfully completed and the findings of the project will be transferred to and implemented in industry. In broader terms, the project will contribute to the enhancement of traditional nitrogen alloying theory and improvement of manufacturing capacities of high nitrogen stainless steel, reducing the energy consumption and emission pollution, and thus helping to attain socioeconomic and environmental targets in the context of the EU 2020 vision.
Funding amount USD 251 K EUR 219 K
Funding period 2019 16 Nov ‐ 2021 15 Nov
https://app.dimensions.ai/details/grant/grant.8585029
3D-printed flexible stainless steel stronger than conventional steel
By Prachi Patel January 10, 2018
3D-printed flexible
A high-angle annular dark-field (HAADF) scanning transmission electron microscope image of solidification cellular structures after deformation of 316L stainless steel. Inset: Trapping of dislocations at the cell walls. Credit: Nature Materials.
Researchers have found a way to three-dimensionally (3D) print stainless steel that is 2–3× stronger than conventional steels while still remaining flexible. This additive manufacturing method could lead to rapid, low-cost manufacturing of everything from medical implants to parts for airplanes, nuclear power plants, and oil rigs.
https://www.cambridge.org/core/journals/mrs-bulletin/news/3d-printed-flexible-stainless-steel-stronger-than-conventional-steel
Machining and Grinding of Ultrahigh-strength Steels and Stainless Steel Alloys
Front Cover
C. T. Olofson, John A. Gurklis, F. W. Boulger, Battelle Memorial Institute
National Aeronautics and Space Administration; Available from the Clearinghouse for Federal Scientific and Technical Information, National Bureau of Standards, U.S. Department of Commerce, Springfield, Va., 1967 - Metal-cutting - 202 pages
https://books.google.co.in/books?id=2fc_AQAAMAAJ (Free E-Book)
Updated on 16.2.2022, 4.10.2021, 22 March 2020, 7 January 2020,
27 December 2019
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