Cemented and cemented/sintered superabrasive polycrystalline bodies and
methods of manufacture thereof
    3.
    发明授权
    Cemented and cemented/sintered superabrasive polycrystalline bodies and methods of manufacture thereof 失效
    水泥和粘结/烧结超级磨料多晶体及其制造方法

    公开(公告)号:US5151107A

    公开(公告)日:1992-09-29

    申请号:US226049

    申请日:1988-07-29

    摘要: Superabrasive cutting elements, backed compacts and methods for their manufacture are disclosed wherein metal coated superabrasive particles are cemented under HPHT conditions. The superabrasives bond to the metal of the coating and the metal coatings of adjacent particles bond to each other forming a matrix. A binding aid with thermal expansion characteristics close to that of the superabrasive particle can be infiltrated through or otherwise mixed with the particles to assist in the bonding between the metal coatings and to fill in voids. Catalyst and non-catalyst binding aids can also be used. Uncoated, smaller superabrasive particles can be interstitially dispersed among the coated particles to increase the superabrasive concentration and can self bond to form a cemented/sintered structure. Tungsten is a preferred metal coating and silicon is a preferred binding/sintering aid. The superabrasive can be diamond, cubic boron nitride, boron doped diamond or crushed, sintered polycrystalline aggregates. The free-standing cutting element can have a brazeable layer and the compact can be backed with, for example, cemented tungsten carbide. Free-standing cutting elements can be thermally stable up to 1,200.degree. C. Backed compacts can be thermally stable up to 1,100.degree. C.

    摘要翻译: 公开了超研磨切割元件,背衬压块及其制造方法,其中金属涂覆的超级磨料颗粒在HPHT条件下胶合。 超级磨料结合到涂层的金属上,相邻颗粒的金属涂层彼此结合形成基体。 具有接近超级磨料颗粒的热膨胀特性的粘合助剂可以渗入或与颗粒混合,以有助于金属涂层之间的粘合并填充空隙。 还可以使用催化剂和非催化剂结合助剂。 未涂覆的较小的超级磨料颗粒可以间隙地分散在涂覆的颗粒中以增加超研磨剂浓度并且可以自粘以形成胶结/烧结结构。 钨是优选的金属涂层,硅是优选的结合/烧结助剂。 超级磨料可以是金刚石,立方氮化硼,硼掺杂金刚石或粉碎,烧结多晶聚集体。 独立的切割元件可以具有可钎焊层,并且该压块可以例如用硬质合金碳化钨来支撑。 独立的切割元件可以在1200℃下热稳定。支撑压块可在1100℃下热稳定。

    Cemented and cemented/sintered superabrasive polycrystalline bodies and
methods of manufacture thereof
    4.
    发明授权
    Cemented and cemented/sintered superabrasive polycrystalline bodies and methods of manufacture thereof 失效
    水泥和粘结/烧结超级磨料多晶体及其制造方法

    公开(公告)号:US5011514A

    公开(公告)日:1991-04-30

    申请号:US378123

    申请日:1989-07-11

    摘要: Superabrasive cutting elements, backed compacts and methods for their manufacture are disclosed wherein metal coated superabrasive particles are cemented under HPHT conditions. The superabrasives bond to the metal of the coating and the metal coatings of adjacent particles bond to each other forming a matrix. A binding aid with thermal expansion characteristics close to that of the superabrasive particle can be infiltrated through or otherwise mixed with the particles to assist in the bonding between the metal coatings and to fill in voids. Catalyst and non-catalyst binding aids can also be used. Uncoated, smaller superabrasive particles can be interstitially dispersed among the coated particles to increase the superabrasive concentration and can self bond to form a cemented/sintered structure. Tungsten is a preferred metal coating and silicon is a preferred binding/sintering aid. The superabrasive can be diamond, cubic boron nitride, boron doped diamond or crushed sintered polycrystalline aggregates. The free-standing cutting element can have a brazeable layer and the compact can be backed with, for example, cemented tungsten carbide. Free-standing cutting elements can be thermally stable up to 1,200.degree. C. Backed compacts can be thermally stable up to 1,100.degree. C.

    摘要翻译: 公开了热稳定的超研磨产品,特别是超研磨切割元件,以及用于其制造的背衬压块及其方法,其中金属涂覆的超级磨料颗粒在HPHT条件下胶合。 超级磨料结合到涂层的金属上,相邻颗粒的金属涂层彼此结合形成基体。 具有接近超级磨料颗粒的热膨胀特性的粘合助剂可以渗入或与颗粒混合,以有助于金属涂层之间的粘合并填充空隙。 还可以使用催化剂和非催化剂结合助剂。 未涂覆的较小的超级磨料颗粒可以间隙地分散在涂覆的颗粒中以增加超研磨剂浓度并且可以自粘以形成胶结/烧结结构。 钨是优选的金属涂层,硅是优选的结合/烧结助剂。 超级磨料可以是金刚石,立方氮化硼,硼掺杂金刚石或粉碎烧结多晶聚集体。 独立的切割元件可以具有可钎焊层,并且该压块可以例如用硬质合金碳化钨来支撑。 独立的切割元件可以在1200℃下热稳定。支撑压块可在1100℃下热稳定。

    Multi-component cutting element using triangular, rectangular and higher
order polyhedral-shaped polycrystalline diamond disks
    5.
    发明授权
    Multi-component cutting element using triangular, rectangular and higher order polyhedral-shaped polycrystalline diamond disks 失效
    多组分切割元件采用三角形,矩形和高阶多面体多晶金刚石圆盘

    公开(公告)号:US4726718A

    公开(公告)日:1988-02-23

    申请号:US797445

    申请日:1985-11-13

    CPC分类号: E21B10/5676 Y10T408/81

    摘要: A diamond cutter for use in a drill bit having a geometric size and shape normally characterized by unleached diamond product, such as STRATAPAX diamond cutters, can be fabricated by assembling a plurality of prefabricated leached polycrystalline diamond (PCD) elements in an array in a cutting slug. A cutting slug is formed of matrix material which in one embodiment is impregnated with diamond grit. The cutting face of the cutting slug is characterized by exposing at least one surface of each of the PCD elements disposed therein. The diamonds may be set within the cutting slug either in a compact touching array or in a spaced-apart relationship. More than one type of array may also be employed within a single cutting slug. The PCD elements can assume a variety of polyhedral shapes such as triangular prismatic elements, rectangular elements, hexagonal elements and the like. The plurality of diamond elements and the cutting slug are fabricated using hot pressing or infiltration techniques.

    摘要翻译: 用于具有几何尺寸和形状的钻头的金刚石切割器可以通过在切割中组装多个预制浸出的多晶金刚石(PCD)元件阵列而制成,其通常以不含浸金刚石产品为特征,例如STRATAPAX金刚石切割器 lug。。。 切割块由矩阵材料形成,在一个实施例中,其被浸渍有金刚石砂粒。 切割块的切割面的特征在于暴露设置在其中的每个PCD元件的至少一个表面。 钻石可以以紧凑的触摸阵列或间隔开的关系设置在切割块内。 也可以在单个切割块内使用多于一种类型的阵列。 PCD元件可以呈现各种各样的多面体形状,例如三角形棱镜元件,矩形元件,六边形元件等。 使用热压或渗透技术制造多个金刚石元件和切割块。

    Multi-component cutting element using triangular, rectangular and higher
order polyhedral-shaped polycrystalline diamond disks
    6.
    发明授权
    Multi-component cutting element using triangular, rectangular and higher order polyhedral-shaped polycrystalline diamond disks 失效
    多组分切割元件采用三角形,矩形和高阶多面体多晶金刚石圆盘

    公开(公告)号:US5028177A

    公开(公告)日:1991-07-02

    申请号:US399372

    申请日:1989-08-24

    IPC分类号: E21B10/56 E21B10/567

    摘要: A diamond cutter for use in a drill bit having a geometric size and shape normally characterized by unleached diamond product, such as STRATAPAX diamond cutters, can be fabricated by assembling a plurality of prefabricated leached polycrystalline diamond (PCD) elements in an array in a cutting slug. A cutting slug is formed of matrix material which in one embodiment is impregnated with diamond grit. The cutting face of the cutting slug is characterized by exposing at least one surface of each of the PCD elements disposed therein. The diamonds may be set within the cutting slug either in a compact touching array or in a spaced-apart relationship. More than one type of array may also be employed within a single cutting slug. The PCD elements can assume a variety of polyhedral shapes such as triangular prismatic elements, rectangular elements, hexagonal elements and the like. The plurality of diamond elements and the cutting slug are fabricated using hot pressing or infiltration techniques.

    摘要翻译: 用于具有几何尺寸和形状的钻头的金刚石切割器可以通过在切割中组装多个预制浸出的多晶金刚石(PCD)元件阵列而制成,其通常以不含浸金刚石产品为特征,例如STRATAPAX金刚石切割器 lug。。。 切割块由矩阵材料形成,在一个实施例中,其被浸渍有金刚石砂粒。 切割块的切割面的特征在于暴露设置在其中的每个PCD元件的至少一个表面。 钻石可以以紧凑的触摸阵列或间隔开的关系设置在切割块内。 也可以在单个切割块内使用多于一种类型的阵列。 PCD元件可以呈现各种各样的多面体形状,例如三角形棱镜元件,矩形元件,六边形元件等。 使用热压或渗透技术制造多个金刚石元件和切割块。