Современные тенденции применения смазочно-охлаждающих технологических средств при лезвийной обработке труднообрабатываемых материалов

А.В. Кирейнов, В.Б. Есов

Инженерный журнал: наука и инновации

# 2·2017

Contemporary trends in cutting fluid usage

for high-performance machining of materials

with poor machinability

Bauman Moscow State Technical University, Moscow, 105005, Russia

Cutting fluids (CF) are integral to machining of poorly machinable materials (PMM),

ensuring significant tool durability and high quality finish of the treated surface. CF

should possess both good functionality and a combination of performance characteristics

allowing them to be used in contemporary manufacturing, taking into account environ-

mental, technologic and economic requirements. The article presents a review of Russian

and international publications dealing with CF used in machining of materials with poor

machinability. We determine the primary trends in using CF during machining PMM in

the global practice and outline their advantages and disadvantages.

Keywords:

machining, poorly machinable materials, cutting fluids, titanium alloys, cor-

rosion-resistant steel

REFERENCES



Entelis S.G.

Smazochno-okhlazhdayushchie tekhnologicheskie sredstva dlya

obrabotki metallov rezaniem

[Cutting fluids for metal machining]. Moscow,

Mashinostroenie Publ., 1986, 351 p.



M’Saoubi R., Axinte D., Soo S.L., Nobel C., Attia H., Kappmeyer G., Engin

S., Sim W.

CIRP Annals — Manufacturing Technology

, 2015, vol. 64, no. 2,

pp. 557–580.



Latyshev V.N.

Povyshenie effektivnosti SOZh

[Increasing cutting fluid efficien-

cy]. Moscow, Mashinostroenie Publ., 1975, 88 p.



Vulf A.M.

Rezanie metallov

[Metal machining]. 2nd ed. Leningrad, Mashi-

nostroenie Publ., 1973, 496 p.



Dreval A.E., Skorokhodov E.A.

Kratkiy spravochnik metallista

[Metalworker's

concise handbook]. Moscow, Mashinostroenie Publ., 2005, 960 p.



Dalskiy A.M., Suslov A.G., Kosilova A.G.

Spravochnik tekhnologa-mashino-

stroitelya

[Handbook for mechanical engineering technologists]. Vol. 2. Mos-

cow, Mashinostroenie Publ., 2001, 944 p.



Khudobin L.V., Berdichevskiy E.G.

Tekhnika primeneniya smazochno-

okhlazhdayushcikh sredstv v metalloobrabotke

[Cutting fluid application tech-

nology for metal machining]. Moscow, Mashinostroenie Publ., 1977, 189 p.



Ermolaeva N.V., Golubkov Yu.V., Kushcheva M.E.

Oborudovanie i tekhnologii

dlya neftegazovogo kompleksa — Equipment and technologies for oil and gas

complex

, 2010, no. 5, pp. 34–37.



Belluco W., De Chiffre L.

Journal of Materials Processing Technology

, 2004,

vol. 148, no. 2, pp. 171–176.



Abdalla H.S., Baines W., McIntyre G., Slade C.

The International Journal of

Advanced Manufacturing Technology

, 2007, vol. 34, no. 1–2, pp. 21–33.



Golubkov Yu.V., Ermolaeva N.V., Moguseva M.S.

Oborudovanie i tekhnologii

dlya neftegazovogo kompleksa — Equipment and technologies for oil and gas

complex

, 2014, no. 1, pp. 32–35.



Shokrani A., Dhokia V., Newman S.T.

International Journal of Machine Tools &

Manufacture

, 2012, vol. 57, pp. 83–101.