For high-efficiency grinding of difficult-to-cut materials such as titanium and nickel alloys, a high porosity is expected and also a sufficient mechanical strength to satisfy the function. However, the porosity increase is a disadvantage to the mechanical strength. As a promising pore forming agent, alumina bubbles are firstly induced into the abrasive layer to fabricate porous cubic boron nitride (CBN) wheels. When the wheel porosity reaches 45%, the bending strength is still high up to 50 MPa with modified orderly pore distribution. A porous CBN wheel was fabricated with a total porosity around 30%. The grinding performance of the porous composite-bonded CBN wheel was evaluated in terms of specific force, specific grinding energy, and gr...
One of the main parameters to measure a grinding tool performance is the material strength. This is ...
An experimental study is reported on the grinding of a nickel-based alloy using vitrified CBN wheels...
AbstractIn order to develop the high-efficiency and precision machining technique of TiCp/Ti–6Al–4V ...
AbstractFor high-efficiency grinding of difficult-to-cut materials such as titanium and nickel alloy...
Vitrified bond cubic boron nitride (CBN) grinding wheel specimens with controllable porosity were pr...
Vitrified bonded cBN wheels have been widely used in various fields ranging from rough grinding to p...
This paper presents a review of researches on CBN (cubic boron nitride) grinding wheels with the pur...
The paper systematically reviews experimental research on the performance of cubic boron nitride (CB...
An experimental study is reported on the grinding of a nickel-based alloy using vitrified CBN wheels...
Nickel-based super alloys are used in a variety of applications in which high-temperature strength a...
Nickel-based super alloys are used in a variety of applications in which high-temperature strength a...
Cubic Boron Nitride (CBN) grinding is extensively employed in the aerospace industry as it allows to...
AbstractCubic Boron Nitride (CBN) grinding is extensively employed in the aerospace industry as it a...
One of the main parameters to measure a grinding tool performance is the material strength. This is ...
Electroplated cubic boron nitride (CBN) wheels are manufactured with a single layer of CBN superabra...
One of the main parameters to measure a grinding tool performance is the material strength. This is ...
An experimental study is reported on the grinding of a nickel-based alloy using vitrified CBN wheels...
AbstractIn order to develop the high-efficiency and precision machining technique of TiCp/Ti–6Al–4V ...
AbstractFor high-efficiency grinding of difficult-to-cut materials such as titanium and nickel alloy...
Vitrified bond cubic boron nitride (CBN) grinding wheel specimens with controllable porosity were pr...
Vitrified bonded cBN wheels have been widely used in various fields ranging from rough grinding to p...
This paper presents a review of researches on CBN (cubic boron nitride) grinding wheels with the pur...
The paper systematically reviews experimental research on the performance of cubic boron nitride (CB...
An experimental study is reported on the grinding of a nickel-based alloy using vitrified CBN wheels...
Nickel-based super alloys are used in a variety of applications in which high-temperature strength a...
Nickel-based super alloys are used in a variety of applications in which high-temperature strength a...
Cubic Boron Nitride (CBN) grinding is extensively employed in the aerospace industry as it allows to...
AbstractCubic Boron Nitride (CBN) grinding is extensively employed in the aerospace industry as it a...
One of the main parameters to measure a grinding tool performance is the material strength. This is ...
Electroplated cubic boron nitride (CBN) wheels are manufactured with a single layer of CBN superabra...
One of the main parameters to measure a grinding tool performance is the material strength. This is ...
An experimental study is reported on the grinding of a nickel-based alloy using vitrified CBN wheels...
AbstractIn order to develop the high-efficiency and precision machining technique of TiCp/Ti–6Al–4V ...