Metal Sintering - Revision history

Marcin: /* Links */

2018-05-16T01:35:04Z

Links

← Older revision		Revision as of 01:35, 16 May 2018
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	=Links=		=Links=
	*[[~~Laser~~ Sintering]]		*[[Metal Selective Layer Sintering]] - 40W of laser power is required to sinter metal powders. This could be done with a CO2 laser.
			*[[Open Source Metal SLS 3D Printer]]

Marcin: /* Data */

2018-05-16T01:32:24Z

Data

← Older revision		Revision as of 01:32, 16 May 2018
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	=Data=		=Data=
	Tensile strength as a function of Sintering void percent shows 50% tensile strength at 20% voids. - [https://books.google.com/books?id=sjY3IZ9Unv0C&pg=PA574&dq=sintering+void+percent&hl=en&sa=X&ved=0ahUKEwjwr-inurLaAhWRy1MKHS2LDJoQ6AEIODAE#v=onepage&q=sintering%20void%20percent&f=false]		Tensile strength as a function of Sintering void percent shows 50% tensile strength at 20% voids. - [https://books.google.com/books?id=sjY3IZ9Unv0C&pg=PA574&dq=sintering+void+percent&hl=en&sa=X&ved=0ahUKEwjwr-inurLaAhWRy1MKHS2LDJoQ6AEIODAE#v=onepage&q=sintering%20void%20percent&f=false]

			=Links=
			*[[Laser Sintering]]

Marcin at 01:31, 16 May 2018

2018-05-16T01:31:59Z

← Older revision		Revision as of 01:31, 16 May 2018
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	=Introduction=		=Introduction=
	Metal sintering is a useful process that can be applied in conjunction with 3D printing of plastic filament. Metal powders embedded in plastic filament can be used in regular 3D printers. It is relatively straightforward to embed 80% of metal powders in plastic ~~filamnet~~. Powder Metallurgy Research indicates that with 20 percent viod space, the sintered metal still retains 50 percent of ~~it's~~ tensile strength. Thus, sintered stainless steel for example would still have 40 ksi strength with 20% voids. 40 ksi (50% of tensile strength) [[http://www.ssina.com/overview/learn.html]] useful for many high-strength applications. Metal 3d printing using standard [[FDM]] printers is around the corner as a mainstream technology.		Metal sintering is a useful process that can be applied in conjunction with 3D printing of plastic filament. Metal powders embedded in plastic filament can be used in regular 3D printers. It is relatively straightforward to embed 80% of metal powders in plastic filament. Powder Metallurgy Research indicates that with 20 percent viod space, the sintered metal still retains 50 percent of its tensile strength. Thus, sintered stainless steel for example would still have 40 ksi strength with 20% voids. 40 ksi (50% of tensile strength) [[http://www.ssina.com/overview/learn.html]] useful for many high-strength applications. Metal 3d printing using standard [[FDM]] printers is around the corner as a mainstream technology.

	=Data=		=Data=
	Tensile strength as a function of Sintering void percent shows 50% tensile strength at 20% voids. - [https://books.google.com/books?id=sjY3IZ9Unv0C&pg=PA574&dq=sintering+void+percent&hl=en&sa=X&ved=0ahUKEwjwr-inurLaAhWRy1MKHS2LDJoQ6AEIODAE#v=onepage&q=sintering%20void%20percent&f=false]		Tensile strength as a function of Sintering void percent shows 50% tensile strength at 20% voids. - [https://books.google.com/books?id=sjY3IZ9Unv0C&pg=PA574&dq=sintering+void+percent&hl=en&sa=X&ved=0ahUKEwjwr-inurLaAhWRy1MKHS2LDJoQ6AEIODAE#v=onepage&q=sintering%20void%20percent&f=false]

Marcin at 15:13, 11 April 2018

2018-04-11T15:13:45Z

← Older revision		Revision as of 15:13, 11 April 2018
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	=Introduction=		=Introduction=
	Metal sintering is a useful process that can be applied in conjunction with 3D printing of plastic filament. Metal powders embedded in plastic filament can be used in regular 3D printers. It is relatively straightforward to embed 80% of metal powders in plastic filamnet. Powder Metallurgy Research indicates that with 20 percent viod space, the sintered metal still retains 50 percent of it's tensile strength. Thus, sintered stainless steel for example would still have 40 ksi strength with 20% voids. 40 ksi (50% of tensile strength) [[http://www.ssina.com/overview/learn.html]] useful for many high-strength applications. Metal 3d printing using standard [[FDM]] printers is around the corner as a mainstream technology.		Metal sintering is a useful process that can be applied in conjunction with 3D printing of plastic filament. Metal powders embedded in plastic filament can be used in regular 3D printers. It is relatively straightforward to embed 80% of metal powders in plastic filamnet. Powder Metallurgy Research indicates that with 20 percent viod space, the sintered metal still retains 50 percent of it's tensile strength. Thus, sintered stainless steel for example would still have 40 ksi strength with 20% voids. 40 ksi (50% of tensile strength) [[http://www.ssina.com/overview/learn.html]] useful for many high-strength applications. Metal 3d printing using standard [[FDM]] printers is around the corner as a mainstream technology.

			=Data=
			Tensile strength as a function of Sintering void percent shows 50% tensile strength at 20% voids. - [https://books.google.com/books?id=sjY3IZ9Unv0C&pg=PA574&dq=sintering+void+percent&hl=en&sa=X&ved=0ahUKEwjwr-inurLaAhWRy1MKHS2LDJoQ6AEIODAE#v=onepage&q=sintering%20void%20percent&f=false]

Marcin at 15:07, 11 April 2018

2018-04-11T15:07:43Z

← Older revision		Revision as of 15:07, 11 April 2018
Line 1:		Line 1:
	=Introduction=		=Introduction=
	Metal sintering is a useful process that can be applied in conjunction with 3D printing of plastic filament. Metal powders embedded in plastic filament can be used in regular 3D printers. It is relatively straightforward to embed 80% of metal powders in plastic filamnet. Powder Metallurgy Research indicates that with 20 percent viod space, the sintered metal still retains 50 percent of it's tensile strength. Thus, sintered stainless steel for example would still have 30 ksi strength with 20% voids. 30 ksi is useful for many applications ~~- and thus metal~~ 3d printing using standard [[FDM]] printers is around the corner as a mainstream technology.		Metal sintering is a useful process that can be applied in conjunction with 3D printing of plastic filament. Metal powders embedded in plastic filament can be used in regular 3D printers. It is relatively straightforward to embed 80% of metal powders in plastic filamnet. Powder Metallurgy Research indicates that with 20 percent viod space, the sintered metal still retains 50 percent of it's tensile strength. Thus, sintered stainless steel for example would still have 40 ksi strength with 20% voids. 40 ksi (50% of tensile strength) [[http://www.ssina.com/overview/learn.html]] useful for many high-strength applications. Metal 3d printing using standard [[FDM]] printers is around the corner as a mainstream technology.

Marcin: Created page with "=Introduction= Metal sintering is a useful process that can be applied in conjunction with 3D printing of plastic filament. Metal powders embedded in plastic filament can be u..."

2018-04-11T14:58:35Z

Created page with "=Introduction= Metal sintering is a useful process that can be applied in conjunction with 3D printing of plastic filament. Metal powders embedded in plastic filament can be u..."

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=Introduction=
Metal sintering is a useful process that can be applied in conjunction with 3D printing of plastic filament. Metal powders embedded in plastic filament can be used in regular 3D printers. It is relatively straightforward to embed 80% of metal powders in plastic filamnet. Powder Metallurgy Research indicates that with 20 percent viod space, the sintered metal still retains 50 percent of it's tensile strength. Thus, sintered stainless steel for example would still have 30 ksi strength with 20% voids. 30 ksi is useful for many applications - and thus metal 3d printing using standard [[FDM]] printers is around the corner as a mainstream technology.