SU32159A1 - Method of fixing pieces of hard alloys on tools - Google Patents

Method of fixing pieces of hard alloys on tools

Info

Publication number: SU32159A1
Authority: SU; USSR - Soviet Union
Prior art keywords: hard; tools; fixing pieces; piece; alloy
Prior art date: 1932-10-31

Application number

SU117979A

Other languages

Russian (ru)

Inventor

В.Д. Романов

Original Assignee

В.Д. Романов

Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)

1932-10-31

Filing date

1932-10-31

Publication date

1933-09-30

1932-10-31 Application filed by В.Д. Романов filed Critical В.Д. Романов

1932-10-31 Priority to SU117979A priority Critical patent/SU32159A1/en

1933-09-30 Application granted granted Critical

1933-09-30 Publication of SU32159A1 publication Critical patent/SU32159A1/en

Links

229910045601 alloy Inorganic materials 0.000 title description 20
239000000956 alloy Substances 0.000 title description 20
238000000034 method Methods 0.000 title description 5
239000002184 metal Substances 0.000 description 6
238000005553 drilling Methods 0.000 description 2
229910001338 liquidmetal Inorganic materials 0.000 description 2
230000006378 damage Effects 0.000 description 1
230000007547 defect Effects 0.000 description 1
230000008030 elimination Effects 0.000 description 1
238000003379 elimination reaction Methods 0.000 description 1
230000002349 favourable effect Effects 0.000 description 1
229910000743 fusible alloy Inorganic materials 0.000 description 1
238000010438 heat treatment Methods 0.000 description 1
238000002844 melting Methods 0.000 description 1
230000008018 melting Effects 0.000 description 1
238000005555 metalworking Methods 0.000 description 1
238000005476 soldering Methods 0.000 description 1
239000007787 solid Substances 0.000 description 1
238000003466 welding Methods 0.000 description 1

Landscapes

Adornments (AREA)

Description

Способ закреплени кусков твердых сплавсЕ на инструментах вл етс весьма важным, так как при закреплении кусков твердых сплавов создаютс механические напр жени в местах соприкосновени твердого сплава со стенками гнезда, в котором он зажат, и на эти же точки передаютс и механические усили сопротивлени твердого сплава, развиваемые при работе. Концентраци механических усилий в отдельных точках создает весьма благопри тные услови дл разрушени кусочков твердых сплавов, обычно весьма хрупких, что лишает возможности полностью использовать твердость сплава . Кроме того, зажимные приспособлени обычно довольно сложны, и при работе на глубинах, где наблюдение за ними и своевременное подт гивание ослабевших частей невозможно, ненадежны и нередко служат причи:.ой аварий.The method of fixing pieces of hard alloys on tools is very important, because when fixing pieces of hard alloys, mechanical stresses are created at the points of contact of the hard alloy with the walls of the socket in which it is clamped, and the mechanical forces of the hard alloy are transmitted to the same points, developed at work. The concentration of mechanical forces at individual points creates very favorable conditions for the destruction of pieces of hard alloys, usually very fragile, which makes it impossible to fully use the hardness of the alloy. In addition, the clamping devices are usually quite complex, and when working at depths, where observation of them and timely tightening of weakened parts is impossible, unreliable and often cause:.

При припайке кусков твердого сплава каким-либо более легкоплавким сплавом обычно получают слой с другими .меха374When soldering pieces of hard metal, some more fusible alloy will usually produce a layer with other .mex374

ническими свойствами, чем свойства, которые имеют твердый сплав и металл рабочей части инструмента. При нажиме на кусок твердого сплава во врем работы промежуточный слой деформируетс иначе, чгм твердый сплав и металл, из которого сделан инструмент, и кусок сплава или ломаетс или отскакивает, что особенно вредно в буровых работах, где отломавшийс кусок, оставались на забсе, не только ие работает сам, но еще разрушает куски твердого сплава, уцелевшие в буровом инструменте.properties than properties that have a hard alloy and metal working part of the tool. When pressed on a piece of hard metal during operation, the intermediate layer deforms differently, chgm hard alloy and the metal from which the tool is made, and the piece of alloy either breaks or bounces, which is especially harmful in drilling operations where the broken piece remained on the fence, not only It does not work by itself, but it also destroys pieces of hard metal that survived in the drilling tool.

При приварке кусков твердого сплава непосредственно к рабочей части инструмента резка граница между телами с разными линейными коэфициентами деформации от нагревани и механических усилий, при температурных изменени х и изменени х механической нагрузки на кусок твердого сплава неизбежно влечет за собой отслаивание приваренного куска твердого сплава.When welding solid carbide pieces directly to the working part of the tool, cutting the boundary between bodies with different linear coefficients of deformation from heating and mechanical forces, with temperature changes and changes in the mechanical load on the hard alloy piece, will inevitably lead to flaking of the welded piece of hard alloy.

Г1ссредством предлагаемого способаG1 means of the proposed method

имеетс в виду достигнуть устранени вышеуказанных дефектов.it is intended to achieve the elimination of the above defects.

Предлагаемый способ закреплени кусков твердых сплавов на инструментах состоит в том, что на месте прикреплени кусочка твердого сплава расплавл ют углубление и в расплавленный металл прибавл ют такого же твердого сплава, как и прикрепл емый кусочек, затем опускают в расплавленный сплав подогретый прикрепл емый кусочек твердого сплава и дают жидкому металлу застыть.The proposed method of fixing pieces of hard alloys on tools consists in melting a recess at the place of attachment of a hard alloy piece and adding the same hard alloy into the molten metal as the piece to be attached, then lowering the heated hard alloyed piece into the molten alloy and make the liquid metal harden.

Предмет изобретени .The subject matter of the invention.

Способ закреплени кусков твердых сплавов на инструментах, отличающийс тем, что на месте прикреплени кусочка твердого сплава расплавл ют углубление, в расплавленный металл прибавл ют такого же твердого сплава, как и прикрепл емый кусочек, а затем опускают в расплавленный сплав подогретый прикрепл емый кусочек и дают жидкому металлу застыть.A method of securing pieces of hard alloys on tools, characterized in that a recess is melted at the point of attachment of a hard alloy piece, the same hard alloy is added to the molten metal as the attached piece, and then a heated, attached piece is dipped into the molten alloy and made liquid metal harden.

SU117979A 1932-10-31 1932-10-31 Method of fixing pieces of hard alloys on tools SU32159A1 (en)

Priority Applications (1)

Application Number	Priority Date	Filing Date	Title
SU117979A SU32159A1 (en)	1932-10-31	1932-10-31	Method of fixing pieces of hard alloys on tools

Applications Claiming Priority (1)

Application Number	Priority Date	Filing Date	Title
SU117979A SU32159A1 (en)	1932-10-31	1932-10-31	Method of fixing pieces of hard alloys on tools

Publications (1)

Publication Number	Publication Date
SU32159A1 true SU32159A1 (en)	1933-09-30

Family

ID=48349371

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
SU117979A SU32159A1 (en)	1932-10-31	1932-10-31	Method of fixing pieces of hard alloys on tools

Country Status (1)

Country	Link
SU (1)	SU32159A1 (en)

1932
- 1932-10-31 SU SU117979A patent/SU32159A1/en active

Publication	Publication Date	Title
Thibault et al.	2010	Residual stress characterization in low transformation temperature 13% Cr–4% Ni stainless steel weld by neutron diffraction and the contour method
US1887373A (en)	1932-11-08	Reamer and the like
EP1802417A4 (en)	2009-04-15	METHODS FOR EXTENDING THE LIFETIME OF JOINTS WELDED TO STEEL ALLOY BY REMOVAL AND REDUCTION OF THE THERMALLY AFFECTED AREA
Jefferson et al.	1962	Metals and how to weld them
SU32159A1 (en)	1933-09-30	Method of fixing pieces of hard alloys on tools
JP7523807B2 (en)	2024-07-29	Surface modification method for steel materials and steel structure
US4195764A (en)	1980-04-01	Brazing of powdered metal parts
JP2006075853A (en)	2006-03-23	Laser welded joint of austenitic alloy steel and manufacturing method thereof
US2914848A (en)	1959-12-01	Method of brazing titanium
JP6606947B2 (en)	2019-11-20	Manufacturing method of welded joint
JP2019042748A (en)	2019-03-22	Method of manufacturing welds
US3066406A (en)	1962-12-04	Soldering of zinc-containing surfaces
US848161A (en)	1907-03-26	Process of manufacturing metal-working tools.
DE764815C (en)	1954-07-05	Solder for soldering high-speed steel or hard metal on steel
US3179540A (en)	1965-04-20	Flux for soldering and low-temperature soldering-welding of cast iron by brass solders
RU2805724C1 (en)	2023-10-23	Method for electric arc surfacing of cast iron products
SU103370A1 (en)	1955-11-30	Solder for Magnesium Alloys
JPS6031583B2 (en)	1985-07-23	How to repair molds for steel ingots, etc.
US1533539A (en)	1925-04-14	Method of uniting pieces of certain alloys to one another or to other metals or alloys, a flux for use therein, and the product thereof
US532890A (en)	1895-01-22	Alloy for soldering or brazing
JPH0191993A (en)	1989-04-11	Crack repairing method for steel structure under stress fluctuation
Devletian et al.	2006	Flux cored arc welding of CuNi 90/10 piping with CuNi 70/30 filler metal
Sripriyan et al.	2023	Austenitic Stainless Steel Using AISI 308 Filler Wire Under Different Temperature
CN107214439A (en)	2017-09-29	A kind of cast iron solder flux and welding method
Oreste et al.	2019	Weld Fracture Between C450 Stainless and C300 Maraging Steels in Golf Club Heads