SU104713A1 - Method of manufacturing bearing shells and bimetallic sleeves with anti-friction surface layer - Google Patents

Method of manufacturing bearing shells and bimetallic sleeves with anti-friction surface layer

Info

Publication number
SU104713A1
SU104713A1 SU366100A SU366100A SU104713A1 SU 104713 A1 SU104713 A1 SU 104713A1 SU 366100 A SU366100 A SU 366100A SU 366100 A SU366100 A SU 366100A SU 104713 A1 SU104713 A1 SU 104713A1
Authority
SU
USSR - Soviet Union
Prior art keywords
surface layer
friction surface
bearing shells
sleeves
manufacturing bearing
Prior art date
Application number
SU366100A
Other languages
Russian (ru)
Inventor
Н.А. Соловьев
Original Assignee
Н.А. Соловьев
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.)
Filing date
Publication date
Application filed by Н.А. Соловьев filed Critical Н.А. Соловьев
Priority to SU366100A priority Critical patent/SU104713A1/en
Application granted granted Critical
Publication of SU104713A1 publication Critical patent/SU104713A1/en

Links

Landscapes

  • Electroplating Methods And Accessories (AREA)
  • Electroplating And Plating Baths Therefor (AREA)

Description

Особенностью предлагаемого способа изготовлени  вкладышей подшшшпков и miметаллическпх .вту.ток с антифрнкциоиным поверхностным слоем  вл етс  пспользоваане дл  навесешг  этого сло  .метода электроацтпчеокого осаж.денп  на поверхность вкладыгиа нли втулки сплава свинца с оловоМ, суфьмою п медью, содержащего до 10% олова, 0,5-15% сурьмы п около 1 % медп.The peculiarity of the proposed method of manufacturing liners of subshaping and metallic metals with an anti-reflective surface layer is used to hang this layer of electrostatic deposition on the surface of the metal sleeve of the alloy of the lead alloy with the target body, using the layer of the metallic alloy on the surface of the alloy layer of the lead alloy with the target surface layer. , 5-15% antimony n about 1% med.

Осал;ден11е рекомендуетс  осуществить 1ГЛ раствора, содержащего 300-400 г плавиковой К11ГСЛОТЫ, 175-225 г борной кислоты, 35-100 г окпсн свпнца, 1-20 г оккси сурьмы, О-10 г олова, 1-3 г ОКИС) медп, 1-2 г стол рного кле  и воды до 1 л.Osal; den11e is recommended to carry out 1GL solution containing 300-400 g of hydrofluoric K11GSLOTY, 175-225 g of boric acid, 35-100 g of oxyhydrate svnitsa, 1-20 g of antimony oxo, O-10 g of tin, 1-3 g of OXID) medp , 1-2 g of table glue and water up to 1 l.

Сурьма вводитс  в электролит в впде барфтористой сурьмы или 1)аствореппем металлическо сурьмы посредством электролиза с ,диаф,ратмо11 в onennaTbHoii luume пли в рабочей вапне в отдельное от покрыти  детале врем .Antimony is introduced into the electrolyte in the inlet of barfluoride antimony or 1) as a metallic antimony metal through electrolysis, diaphragm, rhythm in onennaTbHoii luume or in the working vapne at a time separate from the coating part.

illponeec ведетс  нрн температуре 17-50 п плотпостн тока 1-9 а/д.Illponeec maintains a dfr temperature of 17-50 p current density 1-9 a / d.

При работе с. платност ш тожа иронзводнтси подогрев п перемешивание pacrii-opa ( НОМОП1ЫО хнтанг.When working with. Ironworker heating and mixing pacrii-opa (NOMOP1YO khtang.

Аноды нзготовл ыге  лз сплава свзшца оловом клл )r,i одного свинца, в завпснмссги от к чтодного аюкрытн , jJOTOpoe неийходпмо получить.The anodes are made of an alloy of a tin-plated alloy, r, i of one lead, from the beginning of the next day, jJOTOpoe can be obtained.

Применение эл(; ;трол;1тпческого метода нанесени  аптлфрнк.цлонного сло  на поверхность подшниннкзвых вкладышей л втулок М11жет обес 1счить но сравнению со способом залинки экономию цветных металлов, снижение трудоемкости л иовыпгеппе пок11ыти .The use of electrical (;; trol; 1pl. Method of applying an anti-friction center layer to the surface of the liners of the sleeves of the M11 sleeves can be compared with that of the non-ferrous metals, reducing the labor intensity of the coating.

Пред м е т и з о б р с т е и л  Prevention and Conspiracy

Способ изготовлени  )}кладыше 1 нодИ иипп Ков п биметаллических втулок с антифрагкцпонпым поверхностным слоем, о т л и ч а ю П1, и и с   тем, что антифрикцио )шый слой нанос т на поверхност вкла дыик; или втулки путем электролагг-пческого асажденп) на них сплава свинца I- олпвом, сурьмой и медью.Manufacturing method}} cladding 1 nodIiIp kov n bimetallic bushings with an anti-fraccoat surface layer, about tl and h and P1, and with the fact that the antifrictional layer is applied to the surface by an element; or sleeves by electro-electroplating asazjdenp) on them alloy of lead I - olpvom, antimony and copper.

SU366100A 1948-12-10 1948-12-10 Method of manufacturing bearing shells and bimetallic sleeves with anti-friction surface layer SU104713A1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
SU366100A SU104713A1 (en) 1948-12-10 1948-12-10 Method of manufacturing bearing shells and bimetallic sleeves with anti-friction surface layer

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
SU366100A SU104713A1 (en) 1948-12-10 1948-12-10 Method of manufacturing bearing shells and bimetallic sleeves with anti-friction surface layer

Publications (1)

Publication Number Publication Date
SU104713A1 true SU104713A1 (en) 1955-11-30

Family

ID=48378199

Family Applications (1)

Application Number Title Priority Date Filing Date
SU366100A SU104713A1 (en) 1948-12-10 1948-12-10 Method of manufacturing bearing shells and bimetallic sleeves with anti-friction surface layer

Country Status (1)

Country Link
SU (1) SU104713A1 (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
RU2813220C1 (en) * 2023-08-02 2024-02-08 Алексей Игоревич Буянов Multi-layer crankshaft connecting rod bearing

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
RU2813220C1 (en) * 2023-08-02 2024-02-08 Алексей Игоревич Буянов Multi-layer crankshaft connecting rod bearing

Similar Documents

Publication Publication Date Title
US2468006A (en) Electrolytic cleaning of metal
GB404251A (en) Method of producing firmly adherent galvanic deposits on aluminium and its alloys
US2515192A (en) Method of electroplating
GB528558A (en) Improvements in or relating to processes for treating metals to provide a coating or film thereon
SU104713A1 (en) Method of manufacturing bearing shells and bimetallic sleeves with anti-friction surface layer
GB836978A (en) Electrodeposition of copper and copper alloys
GB1008316A (en) Pretinning of aluminium or aluminium alloys
US2854738A (en) Nickel coated uranium article
US2095519A (en) Method for producing galvanic coatings on aluminum or aluminum alloys
US2851766A (en) Plural metallic coatings on uranium and method of applying same
US3054737A (en) Process and bath for electrosmoothing ferrous metals
US2418970A (en) Process of electrolytically depositing iron and iron alloys
US1276977A (en) Method of coating metal articles.
JPS5789499A (en) Composite electrodeposition of boron nitride and metal
US2095995A (en) Chromium plating
SU116447A1 (en) The method of applying copper coatings by electrolysis of non-cyanic electrolytes
US3245779A (en) Process of treating cathode deposits
US2497036A (en) Coating magnesium and magnesium base alloys
US2970091A (en) Method of alloying aluminum and copper
GB568918A (en) Improvements in and relating to soldering methods
US705456A (en) Iridescent coating of copper, bronze, or like surfaces.
GB673016A (en) An improved method of coating wire, plates or other objects composed of metal, preferably of iron, with aluminium
US2272777A (en) Cadmium coating
US1527577A (en) Electroplating bath
GB655514A (en) Electrolytic process for the surface treatment of aluminium or aluminium alloys