Results 271 to 280 of about 19,856 (300)
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Influence of Steel Hardness in Face-Milling

Journal of Fluids Engineering, 1949
Abstract Face-milling tests are reported on seven different kinds of steels for power consumption and tool life at hardnesses of approximately 200, 300, and 400 Bhn. At any given hardness power requirements varied but little, but differences in tool life were considerably greater.
J. B. Armitage, A. O. Schmidt
openaire   +1 more source

Analysis of Machining Error in Face Milling

1982
A face milling machine is used to make a wide plane accurately, however, it is usually difficult to obtain a good plane because of the presence of stair between neighbouring cutter passes and of the tendency of concavity even in one cutter pass. The study aims at evaluating such machining errors in face milling.
Y. Takeuchi, M. Sakamoto
openaire   +1 more source

Surface Morphology Simulation of High Speed Milled of Face Milling Cutters

Advanced Materials Research, 2011
To surface milling cutters for research object, established considering the single spindle partial pendulum milling cutter tooth surfaces of high speed cutting 3d surface morphology simulation model by using graphic matrix transformation principle and vector algorithms.
Ai Qin Lin   +3 more
openaire   +1 more source

Surface Finish of Steel in Face-Milling

Journal of Fluids Engineering, 1947
Abstract Exhaustive tests have shown that the radial rake angle has relatively little effect upon surface finish of the workpiece in face-milling operations. Cutting speed and feed per tooth determine the surface finish, i.e., the higher the speed and finer the feed, the better the surface becomes. However, if this is carried to extremes
openaire   +1 more source

Face milling of stell with octagonal insert

2023
Торцеве фрезерування часто використовується для створення плоских поверхонь, тому що при використанні його в якості чистової обробки можна досягти відповідної шорсткості поверхні, виконавши зазначені вимоги до розмірів та допусків. Крім того, висока продуктивність може бути досягнута за рахунок вибору відповідних параметрів процесу різання.
openaire   +2 more sources

Tool wear monitoring in face milling

2010
The purpose of this thesis is to investigate tool wear monitoring using Fourier Series simulation of steady state cutting forces. These simulations show that mean and fundamental values are all that is required to accurately predict immersion and tool wear (high frequency terms are ignored).
openaire   +1 more source

Development of an Intelligent Cutter for Face Milling

2008
Nowadays, there is an increasing interest in unmanned machining systems or intelligent machining systems, which are based on the application of sensors for monitoring the cutting process. Among others, cutting force sensors are particularly promising for this purpose.
KLOCKE F   +5 more
openaire   +2 more sources

Improving the effectiveness of face milling

Chemical and Petroleum Engineering, 1985
V. A. Sletkov   +3 more
openaire   +1 more source

The Round Cylindrical faces shaping by the face-milling cutters

2016
In this article task of determine constructive parameters of such face-milling cutters which process the tool’s face with the desired precision is being solved.
openaire   +1 more source

FACE MILLING OF STEEL WITH OCTAGONAL INSERT

2022
Face milling is often used to create flat surfaces, since when used as finishing, a suitable surface roughness can be achieved by fulfilling the specified dimension and tolerance requirements. In addition, high productivity can be reached by choosing the appropriate parameters of the cutting process.
openaire   +1 more source

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