USING OIL-BASED FLUIDS FOR MILLING AUSTENITIC STEEL WITH CARBIDE-TIPPED FACE MILLS

被引:0
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TASHLITSKII, NI
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RUSSIAN ENGINEERING JOURNAL | 1978年 / 58卷 / 03期
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T [工业技术];
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08 ;
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页码:45 / 46
页数:2
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[42]   Investigation of cutting tools and working conditions effects when cutting Ti-6Al-4V using vegetable oil-based cutting fluids [J].
Shyha, I. ;
Gariani, S. ;
Bhatti, M. .
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[43]   Surface protection of steel in oil well acidizing fluids using L-theanine-based corrosion inhibitor formulations: Experimental and theoretical evaluation [J].
Ituen, Ekemini ;
Mkpenie, Victor ;
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[44]   A COMPARATIVE STUDY OF FACE MILLING OF D2 STEEL USING AL(2)O(3) BASED NANOFLUID MINIMUM QUANTITY LUBRICATION AND MINIMUM QUANTITY LUBRICATION [J].
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Khan, Aqib Mashood ;
Gong, Le ;
Xu, Tao ;
Meng, Longhui ;
Hussain, Salman .
ADVANCES IN SCIENCE AND TECHNOLOGY-RESEARCH JOURNAL, 2018, 12 (01) :99-105
[45]   ENHANCING MACHINING PERFORMANCE AND SUSTAINABILITY BY USING COCONUT OIL-BASED MOLYBDENUM DISULFIDE NANOFLUID IN THE MINIMUM QUANTITY LUBRICATION METHOD: OPTIMIZATION OF TURNING PARAMETERS FOR THE AISI4340 STEEL [J].
Gabriel, D. J. Hiran ;
Parthiban, M. .
TRANSACTIONS OF FAMENA, 2025, 49 (01) :129-148
[46]   Multi-variable optimization for surface roughness and micro-hardness in MQL assisted face milling of EN31 steel using Taguchi based grey relational analysis [J].
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Singh, Talvinder ;
Singh, Maninderjeet ;
Rana, Mohit ;
Sharma, Vijay Kumar ;
Sharma, Sonu .
MATERIALS TODAY-PROCEEDINGS, 2021, 43 :3144-3147
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Hazoor Singh Sidhu .
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[48]   Tribological characteristics and drilling performance of nano-MoS2-enhanced vegetable oil-based cutting fluid using eco-friendly MQL technique in drilling of AISI 321 stainless steel [J].
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Chatha, Sukhpal Singh ;
Sidhu, Hazoor Singh .
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