18 results with keyword: 'effect of dry machining on tool wear'
Daripada analisis ANOVA, kelajuan pemotongan dan kadar kelajuan pemotongan adalah parameter yang paling penting yang mempengaruhi kehausan alat pemotong. Kesan
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Later, cutting performance is compared with dry machining, machining with conventional cutting fluid, and machining with nano-cutting fluid in terms of tool wear (crater wear
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To evaluate the effect of cutting speed and feed rate on tool wear and surface roughness when machining under dry condition.. To determine and validate optimal
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The results clearly show that compared to dry machining and machining with flood application, machining with pulsed-jet application lowers cutting forces, reduces tool
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The main objectives of this study investigate and evaluate the effect of different machining parameters on surface roughness, tool wear, tool life, cutting
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The effect of machining parameters on surface roughness, hardness and tool wear for cryogenic treatment of single point cutting tool was investigated.. 5
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machining mild steel and stainless steel using coated carbide tool with different.. parameter
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We also investigated the effect of the cutting speed and feed per tooth on the value of the force parameters of the cutting process, and the effect of tool wear on the value of
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The fundamental principles of ultrasonic machining, the material removal mechanisms involved and the effect of operating parameters on material removal rate, tool wear
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El Mansori, Tribo-energetic correlation of tool thermal properties to wear of WC–Co inserts in high speed dry machining of aeronautical grade titanium alloys, Wear 266 (2009)
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From the figure-5, and figure-6 can be seen that the influence of the cutting speed and feed rate on tool wear due to friction depth of cut funeral with a fixed value of 1.5 mm has
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discussed the effect of dry turning process using Taguchi method and optimization of surface roughness, cutting force, and tool wear of nitrogen alloyed duplex
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[16] evaluated tool wear and surface roughness under dry, wet (conventional) and MQL during turning of AISI 4340 steel with coated carbide tools. There are other studies on
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This project investigates tool wear of carbide cutting tools when machining aluminium alloy on wet and dry condition at different cutting speed.. In this research, the evaluation of
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The investigation includes the comparisons of dry machining, conventional flood lubrication (wet cooling), and minimal quantity lubrication (MQL) regarding to the tool wear, surface
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The durability of the cutting insert was select- ed as the criterion for assessing the effect of the angle of the main edge and the selected geometry of the cutting insert on
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Analysis of effect of minimum quantity lubrication on different machining parameters cutting force, surface roughness and tool wear by hard turning of AISI-4340 alloy steel a
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