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    • 1. 发明授权
    • Method of treating light metal cylinder bore walls to receive thermal
sprayed metal coatings
    • 处理轻金属圆筒孔壁以接受热喷涂金属涂层的方法
    • US5691004A
    • 1997-11-25
    • US678310
    • 1996-07-11
    • Christopher K. PalazzoloV. Durga Nageswar RaoBarry E. Shepley
    • Christopher K. PalazzoloV. Durga Nageswar RaoBarry E. Shepley
    • C23C4/02C23C4/06
    • C23C4/02C23C4/06C23C4/18
    • A method of treating a light metal cylinder bore wall to adherently receive a thermally sprayed metallic coating, that comprises (a) honing the wall to produce a net cylinder shape surface by use of spiral overlapping cross-abrasions having certain peaks and valleys of the abrasions folded over and molded to create tears, folds and undercuts rendering a hook and ladder effect, the honing being carried out with the use of a machining coolant to prevent burnishing of the walls; (b) either concurrently or shortly after step (a), washing the honed surface with a hot alkaline solution comprising (i) a non-soaping aluminate forming agent (sodium xanthate) that produces a residue on the walls, and (ii) surfactants that facilitate wetting of the walls even when some steam bubbles may be present; (c) rinsing the washed surfaces without disturbing the residue; and (d) thermally spraying a metallic bond coat and top coat on the honed and washed surface to render adhesion between the coating and prepared surface that is at least 6000 psi.
    • 一种处理轻金属圆筒孔壁的方法,以粘结地接纳热喷涂的金属涂层,其包括(a)通过使用具有特定峰和谷的磨损的螺旋重叠交叉擦伤来珩磨壁以产生网筒形状表面 折叠并成型以产生呈现钩和梯子效应的撕裂,褶皱和底切,使用机加工冷却剂​​进行珩磨以防止壁的抛光; (b)在步骤(a)之后同时或不久之后,用热碱性溶液洗涤珩磨的表面,所述热碱性溶液包含(i)在壁上产生残留物的非皂化铝酸盐形成剂(黄原酸钠),和(ii)表面活性剂 即使当存在一些蒸汽气泡时也促进壁的润湿; (c)冲洗洗涤的表面而不干扰残留物; 和(d)在磨碎和洗涤的表面上热喷涂金属粘合涂层和顶涂层,以使涂层和制备的表面之间的粘合力至少为6000psi。
    • 3. 发明授权
    • Apparatus and method for finishing a workpiece
    • 用于整理工件的装置和方法
    • US5285600A
    • 1994-02-15
    • US992348
    • 1992-12-17
    • Barry E. Shepley
    • Barry E. Shepley
    • B23Q1/70B24B7/00B24B27/00B24D7/18
    • B24B7/00B23Q1/70B24B27/0076B24D7/18Y10T408/353
    • Apparatus (10) and a method for finishing a workpiece (12) are performed by a first spindle (24) that rotatably mounts a milling cutter (28) about a central axis A and a second spindle (32) also mounted on the support for rotation about the central axis A to mount a grinding wheel. The first spindle (24) has an annular shape that extends around the second (32), and the apparatus includes a drive (38) capable of rotating the first spindle (24) at a slower rate than the rotation of the second spindle (32) such that milling and grinding operations can be performed at effective speeds. An axial slide (40) mounts the first spindle (24) for rotation and for axial movement along the central axis with the second spindle (32) on which the grinding wheel (36) is mounted located within the annular support.
    • 装置(10)和用于完成工件(12)的方法由第一主轴(24)执行,第一主轴(24)围绕中心轴线A可旋转地安装铣刀(28),第二主轴(32)也安装在支撑件上 围绕中心轴线A旋转以安装砂轮。 第一主轴(24)具有围绕第二(32)延伸的环形形状,并且该装置包括能够以比第二主轴(32)的旋转更慢的速度旋转第一主轴(24)的驱动器(38) ),使得可以以有效速度进行铣削和磨削操作。 轴向滑动件(40)安装第一主轴(24)以旋转并沿着中心轴线轴向移动,其中第二主轴(32)在其上安装有砂轮(36),其位于环形支撑件内。
    • 5. 发明授权
    • Method of preparing and coating aluminum bore surfaces
    • 铝合金表面的制备和涂覆方法
    • US5622753A
    • 1997-04-22
    • US630106
    • 1996-04-08
    • Barry E. ShepleyChristopher K. PalazzoloRobert E. DeJackJohn E. ChanceyDeborah R. Pank
    • Barry E. ShepleyChristopher K. PalazzoloRobert E. DeJackJohn E. ChanceyDeborah R. Pank
    • C23C4/02C23C4/16C23C4/10B05D7/22
    • C23C4/02C23C4/16
    • A method of preparing and coating cylindrical bore surfaces of an aluminum workpiece that comprises (a) inserting and rotationally reciprocally moving a plurality of honing elements against the bore surface with a pressure of at least 30 psi to effect a pattern of spiral overlapping abrasions on said surface, each element being constituted of multifaceted, irregular-shaped, abrasive particles (i.e., diamond or SiC) having a particle size of 30-1300 micrometers. The particles, when in contact with the surface, plow micro-sized, non-smooth and irregularly spaced grooves in the aluminum workpiece resulting in spiral peaks and valleys along the direction of movement of the particles, whereupon repeated reciprocation and rotation of the elements (i.e. 50-200 sfm) thereagainst results in overlapping grooves and cross-abrading of the prior peaks and valleys accompanied by a molding and folding over of certain of the peaks and valleys to create irregular, micro-sized tears, folds, and undercuts; and (b) thermally depositing wear resistant metallic particles onto the abraded surface to form a cohesive coating, said deposited particles migrating into the non-smooth grooves and into the irregular tears, folds, and undercuts during thermal deposition to increase the mechanical bond strength of the coating to the workpiece surface.
    • 一种制备和涂覆铝工件的圆柱形孔表面的方法,其包括(a)以至少30psi的压力将多个珩磨元件插入并旋转地往复移动抵靠所述孔表面,以在所述第二表面上形成螺旋重叠擦伤图案 表面,每个元件由具有30-1300微米的粒度的多面,不规则形状的磨料颗粒(即金刚石或SiC)构成。 颗粒当与表面接触时,在铝工件中犁微尺寸的,非平滑的和不规则的间隔开的凹槽,导致沿着颗粒运动方向的螺旋形峰和谷,从而元件的反复往复运动和旋转 即50-200 sfm),导致先前的峰谷重叠的沟槽和交叉研磨,伴随着某些峰和谷的模制和折叠,以产生不规则的微尺寸的撕裂,褶皱和底切; 和(b)将耐磨金属颗粒热沉积到磨损的表面上以形成粘合涂层,所述沉积的颗粒在热沉积期间迁移到非平滑的凹槽中并进入不规则的泪液,折叠和底切以提高机械粘合强度 涂层到工件表面。
    • 6. 发明授权
    • High feed rate deep penetration drill
    • 高进料深度穿透钻
    • US5174691A
    • 1992-12-29
    • US403273
    • 1989-09-05
    • Barry E. Shepley
    • Barry E. Shepley
    • B23B51/02B23B51/06
    • B23B51/06B23B51/02B23B2251/043B23B2251/18Y10S408/705Y10T408/03Y10T408/455Y10T408/9097
    • A drill construction to overcome the problem of high speed (>5000 rpm), high feed rate (>200 inches/minute) chip removal in deep hole drilling of nonferrous workpieces, comprising: (a) a shank for receiving rotary power, (b) an elongate bit extending from such shank coaxially aligned therewith and having a continuous single spiral land occupying one quadrant or less of said bit cross-section with a single spiral flute surrounding said land; (c) a cutting end portion extending integrally from said bit, said end portion having a conically-shaped end surface interrupted by diametrically opposed flutes, one of said flutes being a continuation of the bit flute thereby to define cutting edges, said edges further being defined by arcuate indentations resulting in a plurality of cusps to assist in breaking chips as they are formed; and (d) channels for conducting high pressure (>800 psi) fluid for cooling the bit, end portion, and chips during drilling and for hydrodynamically forcing the broken chips along said flutes, said high pressure fluid means extending centrally axially through said shank and end portion, terminating in exit openings in said end surface.
    • 一种用于克服有色工件深孔钻削中高速(> 5000rpm),高进给速度(> 200英寸/分钟)切屑去除的钻孔结构,包括:(a)用于接收旋转动力的杆,(b )从与其同轴对准的所述柄延伸的细长钻头,并且具有占据所述钻头横截面的一个象限或更小的连续的单个螺旋形脊部,围绕所述平台的单个螺旋槽; (c)从所述钻头整体延伸的切割端部,所述端部具有由直径相对的凹槽中断的锥形端面,所述凹槽中的一个是所述钻头槽的延续,从而限定切割边缘,所述边缘还 由弓形凹痕限定,导致多个尖端,以帮助在芯片形成时切断切屑; 和(d)用于进行高压(> 800psi)流体的通道,用于在钻井期间冷却钻头,端部和切屑,并且用于沿着所述凹槽流体动力地迫使破碎的切屑,所述高压流体装置在轴向上延伸穿过所述柄部, 端部,终止于所述端面中的出口。