The Experts below are selected from a list of 7191 Experts worldwide ranked by ideXlab platform
Yuta Furudate - One of the best experts on this subject based on the ideXlab platform.
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measurement on nano scale by Scanning Probe Microscope for obtaining real ice adhesion force
International Journal of Refrigeration-revue Internationale Du Froid, 2014Co-Authors: K. Matsumoto, Masato Honda, Daisuke Tsubaki, Masashi Murase, Makoto Koshizuka, Yuta FurudateAbstract:Abstract It is important to know a real ice adhesion force on a cooling solid surface. When an ice adhesion force is measured by giving a shearing force at the interface between the solid surface and ice, there is a possibility that a measured ice adhesion force is an apparent value including a force that destroys ice due to unevenness of the surface. Thus, to measure the ice adhesion force without influence of the surface unevenness, one of the authors developed a method for measuring the ice adhesion force on the nano scale by using a Scanning Probe Microscope. In this paper, ice adhesion forces to copper oxide and hard glass test plates were measured at −5 °C on the nano scale by this method, and the real ice adhesion forces could be measured. Moreover, the representative value of proper shearing stresses obtained by real ice adhesion forces divided each ice adhesion area was given.
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Measurement on nano scale by Scanning Probe Microscope for obtaining real ice adhesion force
International Journal of Refrigeration, 2014Co-Authors: K. Matsumoto, Masato Honda, Daisuke Tsubaki, Masashi Murase, Makoto Koshizuka, Yuta FurudateAbstract:It is important to know a real ice adhesion force on a cooling solid surface. When an ice adhesion force is measured by giving a shearing force at the interface between the solid surface and ice, there is a possibility that a measured ice adhesion force is an apparent value including a force that destroys ice due to unevenness of the surface. Thus, to measure the ice adhesion force without influence of the surface unevenness, one of the authors developed a method for measuring the ice adhesion force on the nano scale by using a Scanning Probe Microscope. In this paper, ice adhesion forces to copper oxide and hard glass test plates were measured at -5 ??C on the nano scale by this method, and the real ice adhesion forces could be measured. Moreover, the representative value of proper shearing stresses obtained by real ice adhesion forces divided each ice adhesion area was given. ?? 2014 Elsevier Ltd and IIR. All rights reserved.
K. Matsumoto - One of the best experts on this subject based on the ideXlab platform.
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measurement on nano scale by Scanning Probe Microscope for obtaining real ice adhesion force
International Journal of Refrigeration-revue Internationale Du Froid, 2014Co-Authors: K. Matsumoto, Masato Honda, Daisuke Tsubaki, Masashi Murase, Makoto Koshizuka, Yuta FurudateAbstract:Abstract It is important to know a real ice adhesion force on a cooling solid surface. When an ice adhesion force is measured by giving a shearing force at the interface between the solid surface and ice, there is a possibility that a measured ice adhesion force is an apparent value including a force that destroys ice due to unevenness of the surface. Thus, to measure the ice adhesion force without influence of the surface unevenness, one of the authors developed a method for measuring the ice adhesion force on the nano scale by using a Scanning Probe Microscope. In this paper, ice adhesion forces to copper oxide and hard glass test plates were measured at −5 °C on the nano scale by this method, and the real ice adhesion forces could be measured. Moreover, the representative value of proper shearing stresses obtained by real ice adhesion forces divided each ice adhesion area was given.
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Measurement on nano scale by Scanning Probe Microscope for obtaining real ice adhesion force
International Journal of Refrigeration, 2014Co-Authors: K. Matsumoto, Masato Honda, Daisuke Tsubaki, Masashi Murase, Makoto Koshizuka, Yuta FurudateAbstract:It is important to know a real ice adhesion force on a cooling solid surface. When an ice adhesion force is measured by giving a shearing force at the interface between the solid surface and ice, there is a possibility that a measured ice adhesion force is an apparent value including a force that destroys ice due to unevenness of the surface. Thus, to measure the ice adhesion force without influence of the surface unevenness, one of the authors developed a method for measuring the ice adhesion force on the nano scale by using a Scanning Probe Microscope. In this paper, ice adhesion forces to copper oxide and hard glass test plates were measured at -5 ??C on the nano scale by this method, and the real ice adhesion forces could be measured. Moreover, the representative value of proper shearing stresses obtained by real ice adhesion forces divided each ice adhesion area was given. ?? 2014 Elsevier Ltd and IIR. All rights reserved.
Masato Honda - One of the best experts on this subject based on the ideXlab platform.
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measurement on nano scale by Scanning Probe Microscope for obtaining real ice adhesion force
International Journal of Refrigeration-revue Internationale Du Froid, 2014Co-Authors: K. Matsumoto, Masato Honda, Daisuke Tsubaki, Masashi Murase, Makoto Koshizuka, Yuta FurudateAbstract:Abstract It is important to know a real ice adhesion force on a cooling solid surface. When an ice adhesion force is measured by giving a shearing force at the interface between the solid surface and ice, there is a possibility that a measured ice adhesion force is an apparent value including a force that destroys ice due to unevenness of the surface. Thus, to measure the ice adhesion force without influence of the surface unevenness, one of the authors developed a method for measuring the ice adhesion force on the nano scale by using a Scanning Probe Microscope. In this paper, ice adhesion forces to copper oxide and hard glass test plates were measured at −5 °C on the nano scale by this method, and the real ice adhesion forces could be measured. Moreover, the representative value of proper shearing stresses obtained by real ice adhesion forces divided each ice adhesion area was given.
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Measurement on nano scale by Scanning Probe Microscope for obtaining real ice adhesion force
International Journal of Refrigeration, 2014Co-Authors: K. Matsumoto, Masato Honda, Daisuke Tsubaki, Masashi Murase, Makoto Koshizuka, Yuta FurudateAbstract:It is important to know a real ice adhesion force on a cooling solid surface. When an ice adhesion force is measured by giving a shearing force at the interface between the solid surface and ice, there is a possibility that a measured ice adhesion force is an apparent value including a force that destroys ice due to unevenness of the surface. Thus, to measure the ice adhesion force without influence of the surface unevenness, one of the authors developed a method for measuring the ice adhesion force on the nano scale by using a Scanning Probe Microscope. In this paper, ice adhesion forces to copper oxide and hard glass test plates were measured at -5 ??C on the nano scale by this method, and the real ice adhesion forces could be measured. Moreover, the representative value of proper shearing stresses obtained by real ice adhesion forces divided each ice adhesion area was given. ?? 2014 Elsevier Ltd and IIR. All rights reserved.
Masashi Murase - One of the best experts on this subject based on the ideXlab platform.
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measurement on nano scale by Scanning Probe Microscope for obtaining real ice adhesion force
International Journal of Refrigeration-revue Internationale Du Froid, 2014Co-Authors: K. Matsumoto, Masato Honda, Daisuke Tsubaki, Masashi Murase, Makoto Koshizuka, Yuta FurudateAbstract:Abstract It is important to know a real ice adhesion force on a cooling solid surface. When an ice adhesion force is measured by giving a shearing force at the interface between the solid surface and ice, there is a possibility that a measured ice adhesion force is an apparent value including a force that destroys ice due to unevenness of the surface. Thus, to measure the ice adhesion force without influence of the surface unevenness, one of the authors developed a method for measuring the ice adhesion force on the nano scale by using a Scanning Probe Microscope. In this paper, ice adhesion forces to copper oxide and hard glass test plates were measured at −5 °C on the nano scale by this method, and the real ice adhesion forces could be measured. Moreover, the representative value of proper shearing stresses obtained by real ice adhesion forces divided each ice adhesion area was given.
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Measurement on nano scale by Scanning Probe Microscope for obtaining real ice adhesion force
International Journal of Refrigeration, 2014Co-Authors: K. Matsumoto, Masato Honda, Daisuke Tsubaki, Masashi Murase, Makoto Koshizuka, Yuta FurudateAbstract:It is important to know a real ice adhesion force on a cooling solid surface. When an ice adhesion force is measured by giving a shearing force at the interface between the solid surface and ice, there is a possibility that a measured ice adhesion force is an apparent value including a force that destroys ice due to unevenness of the surface. Thus, to measure the ice adhesion force without influence of the surface unevenness, one of the authors developed a method for measuring the ice adhesion force on the nano scale by using a Scanning Probe Microscope. In this paper, ice adhesion forces to copper oxide and hard glass test plates were measured at -5 ??C on the nano scale by this method, and the real ice adhesion forces could be measured. Moreover, the representative value of proper shearing stresses obtained by real ice adhesion forces divided each ice adhesion area was given. ?? 2014 Elsevier Ltd and IIR. All rights reserved.
Makoto Koshizuka - One of the best experts on this subject based on the ideXlab platform.
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measurement on nano scale by Scanning Probe Microscope for obtaining real ice adhesion force
International Journal of Refrigeration-revue Internationale Du Froid, 2014Co-Authors: K. Matsumoto, Masato Honda, Daisuke Tsubaki, Masashi Murase, Makoto Koshizuka, Yuta FurudateAbstract:Abstract It is important to know a real ice adhesion force on a cooling solid surface. When an ice adhesion force is measured by giving a shearing force at the interface between the solid surface and ice, there is a possibility that a measured ice adhesion force is an apparent value including a force that destroys ice due to unevenness of the surface. Thus, to measure the ice adhesion force without influence of the surface unevenness, one of the authors developed a method for measuring the ice adhesion force on the nano scale by using a Scanning Probe Microscope. In this paper, ice adhesion forces to copper oxide and hard glass test plates were measured at −5 °C on the nano scale by this method, and the real ice adhesion forces could be measured. Moreover, the representative value of proper shearing stresses obtained by real ice adhesion forces divided each ice adhesion area was given.
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Measurement on nano scale by Scanning Probe Microscope for obtaining real ice adhesion force
International Journal of Refrigeration, 2014Co-Authors: K. Matsumoto, Masato Honda, Daisuke Tsubaki, Masashi Murase, Makoto Koshizuka, Yuta FurudateAbstract:It is important to know a real ice adhesion force on a cooling solid surface. When an ice adhesion force is measured by giving a shearing force at the interface between the solid surface and ice, there is a possibility that a measured ice adhesion force is an apparent value including a force that destroys ice due to unevenness of the surface. Thus, to measure the ice adhesion force without influence of the surface unevenness, one of the authors developed a method for measuring the ice adhesion force on the nano scale by using a Scanning Probe Microscope. In this paper, ice adhesion forces to copper oxide and hard glass test plates were measured at -5 ??C on the nano scale by this method, and the real ice adhesion forces could be measured. Moreover, the representative value of proper shearing stresses obtained by real ice adhesion forces divided each ice adhesion area was given. ?? 2014 Elsevier Ltd and IIR. All rights reserved.