�ݺ�ߣshows by User: kativaltonen

�ݺ�ߣshows by User: kativaltonen / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: kativaltonen / Wed, 02 Nov 2016 11:51:19 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: kativaltonen Towards comprehensive control of wear /slideshow/towards-comprehensive-control-of-wear/68054331 pohtovaltonen02112016print-161102115119
Tampere Wear Center concentrates on both scientific and practical aspects of wear and tribology. Strengthens research in the field of wear and tribology of materials Special expertise areas heavy abrasion, impact wear, fretting and tribology of machine elements, such as gears, bearings, brakes, seals, and frictional joints ]]>
Tampere Wear Center concentrates on both scientific and practical aspects of wear and tribology. Strengthens research in the field of wear and tribology of materials Special expertise areas heavy abrasion, impact wear, fretting and tribology of machine elements, such as gears, bearings, brakes, seals, and frictional joints ]]> Wed, 02 Nov 2016 11:51:19 GMT /slideshow/towards-comprehensive-control-of-wear/68054331 kativaltonen@slideshare.net(kativaltonen) Towards comprehensive control of wear kativaltonen Tampere Wear Center concentrates on both scientific and practical aspects of wear and tribology. Strengthens research in the field of wear and tribology of materials Special expertise areas heavy abrasion, impact wear, fretting and tribology of machine elements, such as gears, bearings, brakes, seals, and frictional joints <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/pohtovaltonen02112016print-161102115119-thumbnail.jpg?width=120&height=120&fit=bounds" /> Tampere Wear Center concentrates on both scientific and practical aspects of wear and tribology. Strengthens research in the field of wear and tribology of materials Special expertise areas heavy abrasion, impact wear, fretting and tribology of machine elements, such as gears, bearings, brakes, seals, and frictional joints

Towards comprehensive control of wear from Kati Valtonen

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0 Application oriented wear testing equipment /slideshow/application-oriented-wear-testing-equipment/53534551 applicationorientedweartestingequipment-151005064945-lva1-app6892
Selecting of the best possible testing approach for mining and mineral handling cases, it is important to have a good understanding of the relevance of the laboratory wear tests in predicting the in-service performance of materials in high stress wear conditions. Thus, utilization of the laboratory test results more straightforward for the industry. However, generally several different laboratory test methods are needed to properly cover this kind of severe in-service conditions. ]]>
Selecting of the best possible testing approach for mining and mineral handling cases, it is important to have a good understanding of the relevance of the laboratory wear tests in predicting the in-service performance of materials in high stress wear conditions. Thus, utilization of the laboratory test results more straightforward for the industry. However, generally several different laboratory test methods are needed to properly cover this kind of severe in-service conditions. ]]> Mon, 05 Oct 2015 06:49:45 GMT /slideshow/application-oriented-wear-testing-equipment/53534551 kativaltonen@slideshare.net(kativaltonen) Application oriented wear testing equipment kativaltonen Selecting of the best possible testing approach for mining and mineral handling cases, it is important to have a good understanding of the relevance of the laboratory wear tests in predicting the in-service performance of materials in high stress wear conditions. Thus, utilization of the laboratory test results more straightforward for the industry. However, generally several different laboratory test methods are needed to properly cover this kind of severe in-service conditions. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/applicationorientedweartestingequipment-151005064945-lva1-app6892-thumbnail.jpg?width=120&height=120&fit=bounds" /> Selecting of the best possible testing approach for mining and mineral handling cases, it is important to have a good understanding of the relevance of the laboratory wear tests in predicting the in-service performance of materials in high stress wear conditions. Thus, utilization of the laboratory test results more straightforward for the industry. However, generally several different laboratory test methods are needed to properly cover this kind of severe in-service conditions.

Application oriented wear testing equipment from Kati Valtonen

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0 Tampere Wear Center activities and research equipment 2015 /slideshow/tampere-wear-center-research-equipment-2015/48985031 tamperewearcenterresearchequipment2015-150604111535-lva1-app6891
Tampere Wear Center (TWC) concentrates on both scientific and practical aspects of wear and tribology, trying to bridge the gap between scientific basic research and applied industrial research and product development. The aim of TWC is to provide in-depth insight into the mechanisms of wear and thereby facilitate the development of new wear resistant materials and to find solutions to the practical wear problems constantly faced by the industry. TWC has excellent infrastructure for wear and tribology research, as well as highly qualified scientists and research engineers for the needs of both long-term scientific research and product development for the industry. TWC conducts research in close collaboration with several internationally recognized partners.]]>
Tampere Wear Center (TWC) concentrates on both scientific and practical aspects of wear and tribology, trying to bridge the gap between scientific basic research and applied industrial research and product development. The aim of TWC is to provide in-depth insight into the mechanisms of wear and thereby facilitate the development of new wear resistant materials and to find solutions to the practical wear problems constantly faced by the industry. TWC has excellent infrastructure for wear and tribology research, as well as highly qualified scientists and research engineers for the needs of both long-term scientific research and product development for the industry. TWC conducts research in close collaboration with several internationally recognized partners.]]> Thu, 04 Jun 2015 11:15:35 GMT /slideshow/tampere-wear-center-research-equipment-2015/48985031 kativaltonen@slideshare.net(kativaltonen) Tampere Wear Center activities and research equipment 2015 kativaltonen Tampere Wear Center (TWC) concentrates on both scientific and practical aspects of wear and tribology, trying to bridge the gap between scientific basic research and applied industrial research and product development. The aim of TWC is to provide in-depth insight into the mechanisms of wear and thereby facilitate the development of new wear resistant materials and to find solutions to the practical wear problems constantly faced by the industry. TWC has excellent infrastructure for wear and tribology research, as well as highly qualified scientists and research engineers for the needs of both long-term scientific research and product development for the industry. TWC conducts research in close collaboration with several internationally recognized partners. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/tamperewearcenterresearchequipment2015-150604111535-lva1-app6891-thumbnail.jpg?width=120&height=120&fit=bounds" /> Tampere Wear Center (TWC) concentrates on both scientific and practical aspects of wear and tribology, trying to bridge the gap between scientific basic research and applied industrial research and product development. The aim of TWC is to provide in-depth insight into the mechanisms of wear and thereby facilitate the development of new wear resistant materials and to find solutions to the practical wear problems constantly faced by the industry. TWC has excellent infrastructure for wear and tribology research, as well as highly qualified scientists and research engineers for the needs of both long-term scientific research and product development for the industry. TWC conducts research in close collaboration with several internationally recognized partners.

Tampere Wear Center activities and research equipment 2015 from Kati Valtonen

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0 Valtonen nordtrib14 presentation_final /slideshow/valtonen-nordtrib14-presentationfinal/37906346 valtonennordtrib14presentationfinal-140812055836-phpapp01
R. Suihkonen, J. Perolainen, M. Lindgren, K. Valtonen, N. Ojala, E. Sarlin, J. Vuorinen: Erosion wear of glass fibre reinforced vinyl ester, Nordtrib 2014, Aarhus 10.-13.6.2014. Presentation by Kati Valtonen. Glass fibre reinforced vinyl ester composites are widely used in tanks, piping, ducts, and fans in demanding applications, such as waste water treatment plants,chemical processing, and pulp and paper manufacturing due to their excellent chemical resistance and mechanical performance. In addition to corrosive environments, materials are typically exposed to erosion wear and high temperatures (close to 100°C) in many hydrometallurgical processes. However, there is limited understanding on the erosion wear of vinyl ester based composites and, therefore, knowledge should be gained on this field in order to evaluate their long-term behaviour and to optimise the maintenance intervals of different structures in various wear conditions. This study evaluates the slurry-erosion wear of glass fibre reinforced vinyl ester composites (VE-FRP) using a high speed slurry-pot type wear tester. The wear rates of VE-FRP were compared using different abrasives, namely quartz, chromite, ore, concentrate, and tailings. Furthermore, the effect of abrasive particle size and slurry concentration on the VE-FRP wear was studied. The erosion wear results of VE-FRP were compared to different rubbers, such as natural rubber (NR) and bromobutyl rubber (BIIR) as well as to few common thermoplastics, such as polypropylene (PP) and polyvinyl chloride (PVC), which are potential sensor, gauge, lining, and other wear resistant part materials in hydrometallurgical applications. The results demonstrated that coarse quartz produced the largest wear rates on VE-FRP samples, while the concentrate showed the lowest wear. Minor changes in the abrasive particle size had no effect on the wear results, only when the particle size was markedly raised, the wear started to increase. When comparing the wear rates of different materials, it was concluded that with all abrasive types, tested rubbers and thermoplastics had lower wear rates than VE-FRP. ]]>
R. Suihkonen, J. Perolainen, M. Lindgren, K. Valtonen, N. Ojala, E. Sarlin, J. Vuorinen: Erosion wear of glass fibre reinforced vinyl ester, Nordtrib 2014, Aarhus 10.-13.6.2014. Presentation by Kati Valtonen. Glass fibre reinforced vinyl ester composites are widely used in tanks, piping, ducts, and fans in demanding applications, such as waste water treatment plants,chemical processing, and pulp and paper manufacturing due to their excellent chemical resistance and mechanical performance. In addition to corrosive environments, materials are typically exposed to erosion wear and high temperatures (close to 100°C) in many hydrometallurgical processes. However, there is limited understanding on the erosion wear of vinyl ester based composites and, therefore, knowledge should be gained on this field in order to evaluate their long-term behaviour and to optimise the maintenance intervals of different structures in various wear conditions. This study evaluates the slurry-erosion wear of glass fibre reinforced vinyl ester composites (VE-FRP) using a high speed slurry-pot type wear tester. The wear rates of VE-FRP were compared using different abrasives, namely quartz, chromite, ore, concentrate, and tailings. Furthermore, the effect of abrasive particle size and slurry concentration on the VE-FRP wear was studied. The erosion wear results of VE-FRP were compared to different rubbers, such as natural rubber (NR) and bromobutyl rubber (BIIR) as well as to few common thermoplastics, such as polypropylene (PP) and polyvinyl chloride (PVC), which are potential sensor, gauge, lining, and other wear resistant part materials in hydrometallurgical applications. The results demonstrated that coarse quartz produced the largest wear rates on VE-FRP samples, while the concentrate showed the lowest wear. Minor changes in the abrasive particle size had no effect on the wear results, only when the particle size was markedly raised, the wear started to increase. When comparing the wear rates of different materials, it was concluded that with all abrasive types, tested rubbers and thermoplastics had lower wear rates than VE-FRP. ]]> Tue, 12 Aug 2014 05:58:36 GMT /slideshow/valtonen-nordtrib14-presentationfinal/37906346 kativaltonen@slideshare.net(kativaltonen) Valtonen nordtrib14 presentation_final kativaltonen R. Suihkonen, J. Perolainen, M. Lindgren, K. Valtonen, N. Ojala, E. Sarlin, J. Vuorinen: Erosion wear of glass fibre reinforced vinyl ester, Nordtrib 2014, Aarhus 10.-13.6.2014. Presentation by Kati Valtonen. Glass fibre reinforced vinyl ester composites are widely used in tanks, piping, ducts, and fans in demanding applications, such as waste water treatment plants,chemical processing, and pulp and paper manufacturing due to their excellent chemical resistance and mechanical performance. In addition to corrosive environments, materials are typically exposed to erosion wear and high temperatures (close to 100°C) in many hydrometallurgical processes. However, there is limited understanding on the erosion wear of vinyl ester based composites and, therefore, knowledge should be gained on this field in order to evaluate their long-term behaviour and to optimise the maintenance intervals of different structures in various wear conditions. This study evaluates the slurry-erosion wear of glass fibre reinforced vinyl ester composites (VE-FRP) using a high speed slurry-pot type wear tester. The wear rates of VE-FRP were compared using different abrasives, namely quartz, chromite, ore, concentrate, and tailings. Furthermore, the effect of abrasive particle size and slurry concentration on the VE-FRP wear was studied. The erosion wear results of VE-FRP were compared to different rubbers, such as natural rubber (NR) and bromobutyl rubber (BIIR) as well as to few common thermoplastics, such as polypropylene (PP) and polyvinyl chloride (PVC), which are potential sensor, gauge, lining, and other wear resistant part materials in hydrometallurgical applications. The results demonstrated that coarse quartz produced the largest wear rates on VE-FRP samples, while the concentrate showed the lowest wear. Minor changes in the abrasive particle size had no effect on the wear results, only when the particle size was markedly raised, the wear started to increase. When comparing the wear rates of different materials, it was concluded that with all abrasive types, tested rubbers and thermoplastics had lower wear rates than VE-FRP. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/valtonennordtrib14presentationfinal-140812055836-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> R. Suihkonen, J. Perolainen, M. Lindgren, K. Valtonen, N. Ojala, E. Sarlin, J. Vuorinen: Erosion wear of glass fibre reinforced vinyl ester, Nordtrib 2014, Aarhus 10.-13.6.2014. Presentation by Kati Valtonen. Glass fibre reinforced vinyl ester composites are widely used in tanks, piping, ducts, and fans in demanding applications, such as waste water treatment plants,chemical processing, and pulp and paper manufacturing due to their excellent chemical resistance and mechanical performance. In addition to corrosive environments, materials are typically exposed to erosion wear and high temperatures (close to 100°C) in many hydrometallurgical processes. However, there is limited understanding on the erosion wear of vinyl ester based composites and, therefore, knowledge should be gained on this field in order to evaluate their long-term behaviour and to optimise the maintenance intervals of different structures in various wear conditions. This study evaluates the slurry-erosion wear of glass fibre reinforced vinyl ester composites (VE-FRP) using a high speed slurry-pot type wear tester. The wear rates of VE-FRP were compared using different abrasives, namely quartz, chromite, ore, concentrate, and tailings. Furthermore, the effect of abrasive particle size and slurry concentration on the VE-FRP wear was studied. The erosion wear results of VE-FRP were compared to different rubbers, such as natural rubber (NR) and bromobutyl rubber (BIIR) as well as to few common thermoplastics, such as polypropylene (PP) and polyvinyl chloride (PVC), which are potential sensor, gauge, lining, and other wear resistant part materials in hydrometallurgical applications. The results demonstrated that coarse quartz produced the largest wear rates on VE-FRP samples, while the concentrate showed the lowest wear. Minor changes in the abrasive particle size had no effect on the wear results, only when the particle size was markedly raised, the wear started to increase. When comparing the wear rates of different materials, it was concluded that with all abrasive types, tested rubbers and thermoplastics had lower wear rates than VE-FRP.

Valtonen nordtrib14 presentation_final from Kati Valtonen

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0 Tampere Wear Center & Research equipment 2014 /slideshow/tampere-wear-center-research-equipment-2014/37188436 tamperewearcenterresearchequipment2014-140721035623-phpapp02
Tampere Wear Center (TWC) concentrates on both scientific and practical aspects of wear and tribology, trying to bridge the gap between scientific basic research and applied industrial research and product development. The aim of TWC is to provide in-depth insight into the mechanisms of wear and thereby facilitate the development of new wear resistant materials and to find solutions to the practical wear problems constantly faced by the industry. TWC has excellent infrastructure for wear and tribology research, as well as highly qualified scientists and research engineers for the needs of both long-term scientific research and product development for the industry. TWC conducts research in close collaboration with several internationally recognized partners. ]]>
Tampere Wear Center (TWC) concentrates on both scientific and practical aspects of wear and tribology, trying to bridge the gap between scientific basic research and applied industrial research and product development. The aim of TWC is to provide in-depth insight into the mechanisms of wear and thereby facilitate the development of new wear resistant materials and to find solutions to the practical wear problems constantly faced by the industry. TWC has excellent infrastructure for wear and tribology research, as well as highly qualified scientists and research engineers for the needs of both long-term scientific research and product development for the industry. TWC conducts research in close collaboration with several internationally recognized partners. ]]> Mon, 21 Jul 2014 03:56:23 GMT /slideshow/tampere-wear-center-research-equipment-2014/37188436 kativaltonen@slideshare.net(kativaltonen) Tampere Wear Center & Research equipment 2014 kativaltonen Tampere Wear Center (TWC) concentrates on both scientific and practical aspects of wear and tribology, trying to bridge the gap between scientific basic research and applied industrial research and product development. The aim of TWC is to provide in-depth insight into the mechanisms of wear and thereby facilitate the development of new wear resistant materials and to find solutions to the practical wear problems constantly faced by the industry. TWC has excellent infrastructure for wear and tribology research, as well as highly qualified scientists and research engineers for the needs of both long-term scientific research and product development for the industry. TWC conducts research in close collaboration with several internationally recognized partners. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/tamperewearcenterresearchequipment2014-140721035623-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> Tampere Wear Center (TWC) concentrates on both scientific and practical aspects of wear and tribology, trying to bridge the gap between scientific basic research and applied industrial research and product development. The aim of TWC is to provide in-depth insight into the mechanisms of wear and thereby facilitate the development of new wear resistant materials and to find solutions to the practical wear problems constantly faced by the industry. TWC has excellent infrastructure for wear and tribology research, as well as highly qualified scientists and research engineers for the needs of both long-term scientific research and product development for the industry. TWC conducts research in close collaboration with several internationally recognized partners.

Tampere Wear Center & Research equipment 2014 from Kati Valtonen

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0 Department of Materials Science /slideshow/materials-science-poster/30945230 materialsscienceposter-140207075957-phpapp02
Department of Materials Science (DMS) is one of the biggest education and research units at Tampere University of Technology. At the moment, DMS is the only higher education unit in Finland covering all material groups, i.e., metals, ceramics, polymers, and composites. The cornerstone of research and teaching at DMS is high-level basic research of the structure, properties, processing, and use of materials. In addition, DMS is operating in very close collaboration with Finnish industry in applied materials research and product development. About two-thirds of the total funding and practically all of the research funding of DMS comes from outside the university budget, mainly from the Finnish industry, SHOKs, Tekes, Academy of Finland, and the EU. Department of Materials Science is among the largest departments at Tampere University of Technology and have taught about 900 MSc students, 80 licentiates and over 60 doctors since 1969. http://www.tut.fi/en/about-tut/departments/materials-science/]]>
Department of Materials Science (DMS) is one of the biggest education and research units at Tampere University of Technology. At the moment, DMS is the only higher education unit in Finland covering all material groups, i.e., metals, ceramics, polymers, and composites. The cornerstone of research and teaching at DMS is high-level basic research of the structure, properties, processing, and use of materials. In addition, DMS is operating in very close collaboration with Finnish industry in applied materials research and product development. About two-thirds of the total funding and practically all of the research funding of DMS comes from outside the university budget, mainly from the Finnish industry, SHOKs, Tekes, Academy of Finland, and the EU. Department of Materials Science is among the largest departments at Tampere University of Technology and have taught about 900 MSc students, 80 licentiates and over 60 doctors since 1969. http://www.tut.fi/en/about-tut/departments/materials-science/]]> Fri, 07 Feb 2014 07:59:57 GMT /slideshow/materials-science-poster/30945230 kativaltonen@slideshare.net(kativaltonen) Department of Materials Science kativaltonen Department of Materials Science (DMS) is one of the biggest education and research units at Tampere University of Technology. At the moment, DMS is the only higher education unit in Finland covering all material groups, i.e., metals, ceramics, polymers, and composites. The cornerstone of research and teaching at DMS is high-level basic research of the structure, properties, processing, and use of materials. In addition, DMS is operating in very close collaboration with Finnish industry in applied materials research and product development. About two-thirds of the total funding and practically all of the research funding of DMS comes from outside the university budget, mainly from the Finnish industry, SHOKs, Tekes, Academy of Finland, and the EU. Department of Materials Science is among the largest departments at Tampere University of Technology and have taught about 900 MSc students, 80 licentiates and over 60 doctors since 1969. http://www.tut.fi/en/about-tut/departments/materials-science/ <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/materialsscienceposter-140207075957-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> Department of Materials Science (DMS) is one of the biggest education and research units at Tampere University of Technology. At the moment, DMS is the only higher education unit in Finland covering all material groups, i.e., metals, ceramics, polymers, and composites. The cornerstone of research and teaching at DMS is high-level basic research of the structure, properties, processing, and use of materials. In addition, DMS is operating in very close collaboration with Finnish industry in applied materials research and product development. About two-thirds of the total funding and practically all of the research funding of DMS comes from outside the university budget, mainly from the Finnish industry, SHOKs, Tekes, Academy of Finland, and the EU. Department of Materials Science is among the largest departments at Tampere University of Technology and have taught about 900 MSc students, 80 licentiates and over 60 doctors since 1969. http://www.tut.fi/en/about-tut/departments/materials-science/

Department of Materials Science from Kati Valtonen

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0 Research Equipment at the Tampere Wear Center /kativaltonen/research-equipment-27726849 tamperewearcenterresearchequipment-131030034600-phpapp02
Tampere Wear Center (TWC) concentrates on both scientific and practical aspects of wear, trying to bridge the gap between scientific basic research and applied industrial research and product development. The aim of TWC is to provide in-depth insight into the mechanisms of wear and thereby facilitate the development of new wear resistant materials and to find solutions to the practical wear problems constantly faced by the industry. TWC has excellent infrastructure for wear research, as well as highly qualified scientists and research engineers for the needs of both long-term scientific research and product development for the industry. TWC conducts wear research in close collaboration with several internationally recognized partners. http://www.tut.fi/twc/en]]>
Tampere Wear Center (TWC) concentrates on both scientific and practical aspects of wear, trying to bridge the gap between scientific basic research and applied industrial research and product development. The aim of TWC is to provide in-depth insight into the mechanisms of wear and thereby facilitate the development of new wear resistant materials and to find solutions to the practical wear problems constantly faced by the industry. TWC has excellent infrastructure for wear research, as well as highly qualified scientists and research engineers for the needs of both long-term scientific research and product development for the industry. TWC conducts wear research in close collaboration with several internationally recognized partners. http://www.tut.fi/twc/en]]> Wed, 30 Oct 2013 03:46:00 GMT /kativaltonen/research-equipment-27726849 kativaltonen@slideshare.net(kativaltonen) Research Equipment at the Tampere Wear Center kativaltonen Tampere Wear Center (TWC) concentrates on both scientific and practical aspects of wear, trying to bridge the gap between scientific basic research and applied industrial research and product development. The aim of TWC is to provide in-depth insight into the mechanisms of wear and thereby facilitate the development of new wear resistant materials and to find solutions to the practical wear problems constantly faced by the industry. TWC has excellent infrastructure for wear research, as well as highly qualified scientists and research engineers for the needs of both long-term scientific research and product development for the industry. TWC conducts wear research in close collaboration with several internationally recognized partners. http://www.tut.fi/twc/en <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/tamperewearcenterresearchequipment-131030034600-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> Tampere Wear Center (TWC) concentrates on both scientific and practical aspects of wear, trying to bridge the gap between scientific basic research and applied industrial research and product development. The aim of TWC is to provide in-depth insight into the mechanisms of wear and thereby facilitate the development of new wear resistant materials and to find solutions to the practical wear problems constantly faced by the industry. TWC has excellent infrastructure for wear research, as well as highly qualified scientists and research engineers for the needs of both long-term scientific research and product development for the industry. TWC conducts wear research in close collaboration with several internationally recognized partners. http://www.tut.fi/twc/en

Research Equipment at the Tampere Wear Center from Kati Valtonen

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0 Tampere Wear Center and Wear Forum /slideshow/tampere-wear-center-and-wear-forum/15699162 twcandwearforum-121219070558-phpapp01
Tampere Wear Center (TWC) concentrates on both scientific and practical aspects of wear, trying to bridge the gap between scientific basic research and applied industrial research and development. The aim of TWC is to provide new insight to the mechanisms of wear and thereby facilitate the development of new wear resistant materials and solve the practical wear problems that the industry constantly faces. TWC is a part of the Department of Materials Science of Tampere University of Technology. TWC utilizes the versatile and up-to-date research and testing equipment of DMS as well as exploits the knowledge and expertise of its reseach in all groups of materials. TWC is rapidly developing into an internationally recognized concentration of advanced wear test facilities and expertise. Wear Forum is a collaboration network between TWC, research institutes, and companies. Wear forum connects the material specialists with wear experts. Forum offers both a national and an international collaboration network. http://www.tut.fi/twc/en ]]>
Tampere Wear Center (TWC) concentrates on both scientific and practical aspects of wear, trying to bridge the gap between scientific basic research and applied industrial research and development. The aim of TWC is to provide new insight to the mechanisms of wear and thereby facilitate the development of new wear resistant materials and solve the practical wear problems that the industry constantly faces. TWC is a part of the Department of Materials Science of Tampere University of Technology. TWC utilizes the versatile and up-to-date research and testing equipment of DMS as well as exploits the knowledge and expertise of its reseach in all groups of materials. TWC is rapidly developing into an internationally recognized concentration of advanced wear test facilities and expertise. Wear Forum is a collaboration network between TWC, research institutes, and companies. Wear forum connects the material specialists with wear experts. Forum offers both a national and an international collaboration network. http://www.tut.fi/twc/en ]]> Wed, 19 Dec 2012 07:05:58 GMT /slideshow/tampere-wear-center-and-wear-forum/15699162 kativaltonen@slideshare.net(kativaltonen) Tampere Wear Center and Wear Forum kativaltonen Tampere Wear Center (TWC) concentrates on both scientific and practical aspects of wear, trying to bridge the gap between scientific basic research and applied industrial research and development. The aim of TWC is to provide new insight to the mechanisms of wear and thereby facilitate the development of new wear resistant materials and solve the practical wear problems that the industry constantly faces. TWC is a part of the Department of Materials Science of Tampere University of Technology. TWC utilizes the versatile and up-to-date research and testing equipment of DMS as well as exploits the knowledge and expertise of its reseach in all groups of materials. TWC is rapidly developing into an internationally recognized concentration of advanced wear test facilities and expertise. Wear Forum is a collaboration network between TWC, research institutes, and companies. Wear forum connects the material specialists with wear experts. Forum offers both a national and an international collaboration network. http://www.tut.fi/twc/en <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/twcandwearforum-121219070558-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Tampere Wear Center (TWC) concentrates on both scientific and practical aspects of wear, trying to bridge the gap between scientific basic research and applied industrial research and development. The aim of TWC is to provide new insight to the mechanisms of wear and thereby facilitate the development of new wear resistant materials and solve the practical wear problems that the industry constantly faces. TWC is a part of the Department of Materials Science of Tampere University of Technology. TWC utilizes the versatile and up-to-date research and testing equipment of DMS as well as exploits the knowledge and expertise of its reseach in all groups of materials. TWC is rapidly developing into an internationally recognized concentration of advanced wear test facilities and expertise. Wear Forum is a collaboration network between TWC, research institutes, and companies. Wear forum connects the material specialists with wear experts. Forum offers both a national and an international collaboration network. http://www.tut.fi/twc/en

Tampere Wear Center and Wear Forum from Kati Valtonen

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0 https://cdn.slidesharecdn.com/profile-photo-kativaltonen-48x48.jpg?cb=1523952327 Tampere Wear Center (TWC) concentrates on both scientific and practical aspects of wear, trying to bridge the gap between scientific basic research and applied industrial research and development. The aim of TWC is to provide new insight to the mechanisms of wear and thereby facilitate the development of new wear resistant materials and solve the practical wear problems that the industry constantly faces. TWC is a part of the Department of Materials Science of Tampere University of Technology. TWC utilizes the versatile and up-to-date research and testing equipment of DMS as well as exploits the knowledge and expertise of its reseach in all groups of materials. TWC is rapidly developing... www.tut.fi/twc/en https://cdn.slidesharecdn.com/ss_thumbnails/pohtovaltonen02112016print-161102115119-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/towards-comprehensive-control-of-wear/68054331 Towards comprehensive ... https://cdn.slidesharecdn.com/ss_thumbnails/applicationorientedweartestingequipment-151005064945-lva1-app6892-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/application-oriented-wear-testing-equipment/53534551 Application oriented w... https://cdn.slidesharecdn.com/ss_thumbnails/tamperewearcenterresearchequipment2015-150604111535-lva1-app6891-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/tampere-wear-center-research-equipment-2015/48985031 Tampere Wear Center ac...