公开(公告)号：US20090084877A1

公开(公告)日：2009-04-02

申请号：US12315032

申请日：2008-11-26

申请人： Peter Krause ,  Alfred Baron ,  Georg Hilger ,  Walter Minzel ,  Ulf Pahnke ,  Rainer Krenski

发明人： Peter Krause ,  Alfred Baron ,  Georg Hilger ,  Walter Minzel ,  Ulf Pahnke ,  Rainer Krenski

IPC分类号： B02C19/18

CPC分类号： C04B20/026 ,  B02C13/205 ,  B02C13/22

摘要： A method for the disintegration and tribochemical activation of especially inorganic materials having a crystalline structure, wherein the starting materials are comminuted (disintegrated) to a particle size of less than 1 μm by the effect of impacting pressure fronts at a pulse duration of less that 10 μs and a sequence frequency of more than 8 kHz. A conglomerate of activated mixed crystals is then obtained having an increased aptitude for the formation of modified crystals when water is added. The duration of the effect of the impacting pressure fronts continues until the crystal lattice structure of the particles is destroyed. A device for the disintegration and tribochemical activation of said materials is based on rotating disks whereon molded bodies with aerodynamic profiles are arranged, the molded bodies being continuously displaced in a transonic speed range and impacting pressure fronts being produced on the outflow surfaces thereof.

摘要翻译： 一种用于特别是具有结晶结构的无机材料的崩解和摩擦化学活化的方法，其中通过以小于10的脉冲持续时间冲击压力面的作用将原料粉碎（崩解）至小于1μm的粒度 mus和序列频率大于8 kHz。 然后获得活化混合晶体的聚集体，当加入水时，其具有增加形成改性晶体的能力。 冲击压力前沿的作用持续时间直到颗粒的晶格结构被破坏。 用于所述材料的分解和摩擦化学活化的装置基于旋转盘，其中布置有具有空气动力学轮廓的成型体，所述成型体在跨音速范围内连续移位并且冲击在其流出表面上产生的压力前沿。

公开(公告)号：US20050253000A1

公开(公告)日：2005-11-17

申请号：US10531815

申请日：2003-10-14

申请人： Peter Krause ,  Alfred Baron ,  Georg Hilger ,  Walter MInzel ,  Ulf Pahnke ,  Rainer Krenski

发明人： Peter Krause ,  Alfred Baron ,  Georg Hilger ,  Walter MInzel ,  Ulf Pahnke ,  Rainer Krenski

IPC分类号： B02C13/20 ,  B02C13/22 ,  C04B20/02 ,  B02C19/18

CPC分类号： C04B20/026 ,  B02C13/205 ,  B02C13/22

摘要： The invention relates to a method for the disintegration and tribochemical activation of especially inorganic materials having a crystalline structure, wherein the starting materials are comminuted (disintegrated) to a particle size of less than 1 μm by the effect of impacting pressure fronts at a pulse duration of less that 10 μs and a sequence frequency of more than 8 kHz. A conglomerate of activated mixed crystals is then obtained. Said conglomerate has an increased aptitude for the formation of modified crystals when water is added. The duration of the effect of the impacting pressure fronts continues until the crystal lattice structure of the particles (30) is destroyed. A device for the disintegration and tribochemical activation of said materials is based on rotating disks whereon moulded bodies with aerodynamical profiles are arranged, said moulded bodies being continuously displaced in a transonic speed range and impacting pressure fronts being produced on the outflow surfaces thereof.

摘要翻译： 本发明涉及一种特别是具有结晶结构的无机材料的崩解和摩擦化学活化的方法，其中起始材料通过以脉冲持续时间冲击压力面的作用粉碎（崩解）至小于1μm的粒度 小于10 Mus，序列频率大于8 kHz。 然后获得活化混合晶体的聚集体。 当添加水时，所述砾岩具有增加形成改性晶体的能力。 冲击压力前沿的作用持续时间直到颗粒（30）的晶格结构被破坏。 用于所述材料的分解和摩擦化学活化的装置基于旋转盘，其中布置有具有空气动力学特性的成型体，所述成型体在跨音速范围内连续移位，并且在其流出表面上产生冲击压力前沿。

公开(公告)号：US07472851B2

公开(公告)日：2009-01-06

申请号：US10531815

申请日：2003-10-14

申请人： Peter Krause ,  Alfred Baron ,  Georg Hilger ,  Walter Menzel ,  Ulf Pahnke ,  Rainer Krenski

发明人： Peter Krause ,  Alfred Baron ,  Georg Hilger ,  Walter Menzel ,  Ulf Pahnke ,  Rainer Krenski

IPC分类号： B02C19/06

CPC分类号： C04B20/026 ,  B02C13/205 ,  B02C13/22

摘要： The invention relates to a method for the disintegration and tribochemical activation of especially inorganic materials having a crystalline structure, wherein the starting materials are comminuted (disintegrated) to a particle size of less than 1 μm by the effect of impacting pressure fronts at a pulse duration of less that 10 μs and a sequence frequency of more than 8 kHz. A conglomerate of activated mixed crystals is then obtained. Said conglomerate has an increased aptitude for the formation of modified crystals when water is added. The duration of the effect of the impacting pressure fronts continues until the crystal lattice structure of the particles (30) is destroyed. A device for the disintegration and tribochemical activation of said materials is based on rotating disks whereon molded bodies with aerodynamical profiles are arranged, said molded bodies being continuously displaced in a transonic speed range and impacting pressure fronts being produced on the outflow surfaces thereof.

摘要翻译： 本发明涉及一种特别是具有结晶结构的无机材料的崩解和摩擦化学活化的方法，其中起始材料通过以脉冲持续时间冲击压力面的作用粉碎（崩解）至小于1μm的粒度 小于10 Mus，序列频率大于8 kHz。 然后获得活化混合晶体的聚集体。 当添加水时，所述砾岩具有增加形成改性晶体的能力。 冲击压力前沿的作用持续时间直到颗粒（30）的晶格结构被破坏。 用于所述材料的分解和摩擦化学活化的装置基于旋转盘，其中布置有具有空气动力学特性的成型体，所述成型体在跨音速范围内连续移位，并且在其流出表面上产生冲击压力前沿。

公开(公告)号：US07681820B2

公开(公告)日：2010-03-23

申请号：US12315032

申请日：2008-11-26

申请人： Peter Krause ,  Alfred Baron ,  Georg Hilger ,  Walter Menzel ,  Ulf Pahnke ,  Rainer Krenski

发明人： Peter Krause ,  Alfred Baron ,  Georg Hilger ,  Walter Menzel ,  Ulf Pahnke ,  Rainer Krenski

IPC分类号： B02C13/286

CPC分类号： C04B20/026 ,  B02C13/205 ,  B02C13/22

摘要： A method for the disintegration and tribochemical activation of especially inorganic materials having a crystalline structure, wherein the starting materials are comminuted (disintegrated) to a particle size of less than 1 μm by the effect of impacting pressure fronts at a pulse duration of less that 10 μs and a sequence frequency of more than 8 kHz. A conglomerate of activated mixed crystals is then obtained having an increased aptitude for the formation of modified crystals when water is added. The duration of the effect of the impacting pressure fronts continues until the crystal lattice structure of the particles is destroyed. A device for the disintegration and tribochemical activation of said materials is based on rotating disks whereon molded bodies with aerodynamic profiles are arranged, the molded bodies being continuously displaced in a transonic speed range and impacting pressure fronts being produced on the outflow surfaces thereof.

摘要翻译： 一种特别是具有结晶结构的无机材料的崩解和摩擦化学活化的方法，其中起始材料通过以小于10的脉冲持续时间冲击压力面的作用被粉碎（崩解）至小于1μm的粒度 μs，序列频率大于8 kHz。 然后获得活化混合晶体的聚集体，当加入水时，其具有增加形成改性晶体的能力。 冲击压力前沿的作用持续时间直到颗粒的晶格结构被破坏。 用于所述材料的分解和摩擦化学活化的装置基于旋转盘，其中布置有具有空气动力学轮廓的成型体，所述成型体在跨音速范围内连续移位并且冲击在其流出表面上产生的压力前沿。