公开(公告)号：US06629559B2

公开(公告)日：2003-10-07

申请号：US10131001

申请日：2002-04-24

申请人： Emanuel M. Sachs ,  Won B. Bang ,  Michael J. Cima

发明人： Emanuel M. Sachs ,  Won B. Bang ,  Michael J. Cima

IPC分类号： B22C902

CPC分类号： B22C9/00 ,  B22C9/04 ,  B33Y80/00

摘要： A new mold solves problems that arise from differential changes in geometry inherent to casting metal in a ceramic mold, by control of the internal morphology between the surfaces of the mold that face the casting, and that face the external environment. Layered fabrication techniques are used to create a ceramic mold. For example, an internal geometry composed of a cellular arrangement of voids may be created within the mold wall. Structures may be designed and fabricated so that the ceramic mold fails at an appropriate time during the solidification and/or cooling of the casting. Thus, the casting itself is not damaged. The mold fails to avoid rupture, or even distortion, of the casting. A thin shell of ceramic defines the casting cavity. This shell must be thin enough to fail due to the stresses induced (primarily compressive) by the metal next to it and partly adherent to it. A support structure is provided with a morphology that supports the thin shell that defines the casting geometry, yet that also fails as the casting solidifies and/or cools. Typically, the support structure is a skeletal network with voids therebetween. The skeletal elements may be struts, or sheets or both. At least the following two failure mechanisms may be exploited in the design of the support structure: bending in the structure; and under compressive loads, either by buckling of a support member or, breakage under compressive loading. The failure of the support structure may also be due to a combination of bending and compression.

摘要翻译： 一种新的模具解决了陶瓷模具中铸造金属固有几何差异变化的问题，通过控制模具表面之间的内部形态以及面对外部环境的内部形态。 使用分层制造技术来制造陶瓷模具。 例如，可以在模具壁内形成由空隙的细胞布置构成的内部几何形状。 可以设计和制造结构，使得陶瓷模具在铸件的凝固和/或冷却期间在适当的时间失效。 因此，铸件本身不会损坏。 模具不能避免铸件的破裂或甚至变形。陶瓷的薄壳体限定铸造腔体。 这种外壳必须足够薄以致由于紧邻其上的金属（部分粘附在其上）的应力引起（主要是压缩）的应力而失效。 支撑结构具有支撑限定铸造几何形状的薄壳的形态，但是当铸件固化和/或冷却时也会失效。 通常，支撑结构是其间具有空隙的骨架网络。 骨架元件可以是支柱或片材或两者。至少在支撑结构的设计中可以利用以下两种故障机构：在结构中弯曲; 并且在压缩载荷下，通过支撑构件的弯曲或在压缩载荷下断裂。 支撑结构的故障也可能是由于弯曲和压缩的组合。

公开(公告)号：US06397922B1

公开(公告)日：2002-06-04

申请号：US09577920

申请日：2000-05-24

申请人： Emanuel M. Sachs ,  Won B. Bang ,  Michael J. Cima

发明人： Emanuel M. Sachs ,  Won B. Bang ,  Michael J. Cima

IPC分类号： B22D4600

CPC分类号： B22C9/00 ,  B22C9/04 ,  B33Y80/00

摘要： A new mold solves problems that arise from differential changes in geometry inherent to casting metal in a ceramic mold, by control of the internal morphology between the surfaces of the mold that face the casting, and that face the external environment. Layered fabrication techniques are used to create a ceramic mold. For example, an internal geometry composed of a cellular arrangement of voids may be created within the mold wall. Structures may be designed and fabricated so that the ceramic mold fails at an appropriate time during the solidification and/or cooling of the casting. Thus, the casting itself is not damaged. The mold fails to avoid rupture, or even distortion, of the casting. A thin shell of ceramic defines the casting cavity. This shell must be thin enough to fail due to the stresses induced (primarily compressive) by the metal next to it and partly adherent to it. A support structure is provided with a morphology that supports the thin shell that defines the casting geometry, yet that also fails as the casting solidifies and/or cools. Typically, the support structure is a skeletal network with voids therebetween. The skeletal elements may be struts, or sheets or both. At least the following two failure mechanisms may be exploited in the design of the support structure: bending in the structure; and under compressive loads, either by buckling of a support member or, breakage under compressive loading. The failure of the support structure may also be due to a combination of bending and compression.

公开(公告)号：US5340656A

公开(公告)日：1994-08-23

申请号：US45632

申请日：1993-04-09

申请人： Emanuel M. Sachs ,  John S. Haggerty ,  Michael J. Cima ,  Paul A. Williams

发明人： Emanuel M. Sachs ,  John S. Haggerty ,  Michael J. Cima ,  Paul A. Williams

IPC分类号： B22F7/04 ,  B05C19/04 ,  B22F3/00 ,  B28B1/32 ,  B28B7/00 ,  B29C41/00 ,  B29C41/12 ,  B29C41/36 ,  B29C67/00 ,  B29C67/02 ,  B29C67/04 ,  B29C67/24 ,  B30B15/30 ,  B32B27/00 ,  B41J2/01 ,  B41J2/085 ,  B41J2/09 ,  B65G65/48 ,  G06T11/00 ,  H05K3/10 ,  B22F7/02

CPC分类号： B29C67/0081 ,  B05C19/04 ,  B22F3/004 ,  B22F3/008 ,  B28B1/001 ,  B29C41/006 ,  B29C41/12 ,  B29C41/36 ,  B29C67/0059 ,  B29C67/02 ,  B29C67/04 ,  B29C67/243 ,  B30B15/302 ,  B41J2/01 ,  B41J2/085 ,  B41J2/09 ,  H05K3/102 ,  B22F2998/00 ,  G05B2219/49013 ,  H05K2203/013 ,  H05K2203/0522 ,  Y10T428/12014 ,  Y10T428/12021

摘要： A process for making a component by depositing a first layer of a powder material in a confined region and then depositing a binder material to selected regions of the layer of powder material to produce a layer of bonded powder material at the selected regions. Such steps are repeated a selected number of times to produce successive layers of selected regions of bonded powder material so as to form the desired component. The unbonded powder material is then removed. In some cases the component may be further processed as, for example, by heating it to further strengthen the bonding thereof.

摘要翻译： 一种通过在受限区域中沉积粉末材料的第一层然后将粘合剂材料沉积到粉末材料层的选定区域以在所选择的区域产生粘结的粉末材料层来制备组分的方法。 这样的步骤重复选定的次数以产生粘结的粉末材料的选定区域的连续层，以形成所需的组分。 然后除去未结合的粉末材料。 在一些情况下，可以例如通过加热组分进一步加强其粘合来进一步加工组分。

公开(公告)号：US5204055A

公开(公告)日：1993-04-20

申请号：US447677

申请日：1989-12-08

申请人： Emanuel M. Sachs ,  John S. Haggerty ,  Michael J. Cima ,  Paul A. Williams

发明人： Emanuel M. Sachs ,  John S. Haggerty ,  Michael J. Cima ,  Paul A. Williams

IPC分类号： B22F7/04 ,  B05C19/04 ,  B22F3/00 ,  B28B1/32 ,  B28B7/00 ,  B29C41/00 ,  B29C41/12 ,  B29C41/36 ,  B29C67/00 ,  B29C67/02 ,  B29C67/04 ,  B29C67/24 ,  B30B15/30 ,  B32B27/00 ,  B41J2/01 ,  B41J2/085 ,  B41J2/09 ,  B65G65/48 ,  G06T11/00 ,  H05K3/10

CPC分类号： B29C67/0081 ,  B05C19/04 ,  B22F3/004 ,  B22F3/008 ,  B28B1/001 ,  B29C41/006 ,  B29C41/12 ,  B29C41/36 ,  B29C67/0059 ,  B29C67/02 ,  B29C67/04 ,  B29C67/243 ,  B30B15/302 ,  B41J2/01 ,  B41J2/085 ,  B41J2/09 ,  H05K3/102 ,  B22F2998/00 ,  G05B2219/49013 ,  H05K2203/013 ,  H05K2203/0522 ,  Y10T428/12014 ,  Y10T428/12021

摘要： A process for making a component by depositing a first layer of a fluent porous material, such as a powder, in a confined region and then depositing a binder material to selected regions of the layer of powder material to produce a layer of bonded powder material at the selected regions. Such steps are repeated a selected number of times to produce successive layers of selected regions of bonded powder material so as to form the desired component. The unbonded powder material is then removed. In some cases the component may be further processed as, for example, by heating it to further strengthen the bonding thereof.

摘要翻译： （A）在密闭区域中沉积第一层粉末材料，然后（B）将粘合剂材料沉积到粉末材料层的选定区域以在该区域形成粘结粉末材料层的方法 选定地区。 这样的步骤重复选定次数以产生粘结粉末材料（C）的选定区域的连续层，以便形成所需组分（D）。 然后除去未结合的粉末材料（E）。 在一些情况下，可以例如通过加热组分进一步加强其粘合来进一步加工组分。

公开(公告)号：US06596224B1

公开(公告)日：2003-07-22

申请号：US09445670

申请日：2000-03-01

申请人： Emanuel M. Sachs ,  Michael J. Cima ,  Michael A. Caradonna ,  Jason Grau ,  James G. Serdy ,  Patrick C. Saxton ,  Scott A. Uhland ,  Jooho Moon

发明人： Emanuel M. Sachs ,  Michael J. Cima ,  Michael A. Caradonna ,  Jason Grau ,  James G. Serdy ,  Patrick C. Saxton ,  Scott A. Uhland ,  Jooho Moon

IPC分类号： B22F702

CPC分类号： B29C41/36 ,  B22F3/008 ,  B22F2999/00 ,  B29C41/003 ,  B29C41/16 ,  B29C64/112 ,  B29C64/165 ,  B33Y10/00 ,  B33Y30/00 ,  B22F3/22

摘要： A powder bed (32) is built up by repeated deposition of a slurry that contains powder. Layers are made by depositing a liquid dispersion of the desired powdered material, which then slip-casts into the forming powder bed to make a new layer (34). The slurry may be deposited in any suitable manner, such as by raster or vector scanning, or by a plurality of simultaneous jets that coalesce before the liquid slip-casts into the bed, or by individual drops, the deposits of which are individually controlled, thereby generating a regular surface for each layer.

摘要翻译： 通过重复沉积含有粉末的浆料来形成粉末床（32）。 通过沉积所需粉末材料的液体分散体来制备层，然后将其分散到成形粉末床中以形成新的层（34）。 浆料可以以任何合适的方式沉积，例如通过光栅或向量扫描，或者通过多个同时喷射在液体滑入床之前聚结，或通过单独的液滴沉积，沉积物被单独控制， 从而为每个层产生规则的表面。

公开(公告)号：US5940674A

公开(公告)日：1999-08-17

申请号：US831636

申请日：1997-04-09

申请人： Emanuel M. Sachs ,  Michael J. Cima

发明人： Emanuel M. Sachs ,  Michael J. Cima

IPC分类号： B22F3/115 ,  B29C67/00 ,  B22F3/10 ,  B22F7/02

CPC分类号： B29C67/0081 ,  B22F3/115 ,  B22F2998/00 ,  B22F2998/10

摘要： A process for making a component includes the steps of: depositing a layer of a porous material; positioning a mask near to the deposited layer; applying a bonding material that will cause any contacted portions of the porous material to become bonded together, over and through the mask, such that the bonding material is applied to one or more selected regions of the recently deposited layer of porous material; and repeating the foregoing three steps a selected number of times to produce a selected number of successive layers, said bonding material causing each of said successive layers to become bonded to an adjacent layer. Any unbonded porous material that is not at the selected regions is easily removed. The mask may be an open stencil mask, or a screen mask. If open stencil masks are used, there may be more than one mask for a single layer of porous material. Successive masks may be positioned by a continuous sheet, a rotating disk, or individually, such as by a robot. The porous material may be metallic or ceramic or plastic, and it may be loose powder or loosely bonded powder. The bonding material may be applied as droplets or a jet. Droplets may be applied by sonic or ultrasonic atomizer, through a nozzle, a simple orifice, or by an electrostatic arrangement, such as in electrostatic painting. The mask may be positioned in contact with the powder material or spaced away therefrom.

摘要翻译： 制备组分的方法包括以下步骤：沉积多孔材料层; 将掩模定位在沉积层附近; 施加将导致多孔材料的任何接触部分接合在一起的接合材料，在掩模上并通过掩模，使得接合材料施加到最近沉积的多孔材料层的一个或多个选定区域; 并重复上述三个步骤选定次数以产生选定数量的连续层，所述粘合材料使得每个所述连续层变得粘结到相邻层。 不在选定区域的任何未结合的多孔材料都容易除去。 面罩可以是开放的模板面罩或屏幕面罩。 如果使用开放的模版掩模，则可能有多于一个多孔材料层的掩模。 连续的面罩可以由连续的片材，旋转盘或单独的机器人定位。 多孔材料可以是金属或陶瓷或塑料，并且它可以是松散粉末或松散结合的粉末。 接合材料可以作为液滴或喷射施加。 液滴可以通过声波或超声波雾化器，通过喷嘴，简单的孔口，或通过静电装置，例如在静电喷涂中施加。 掩模可以定位成与粉末材料接触或与之隔开。

公开(公告)号：US5814161A

公开(公告)日：1998-09-29

申请号：US600215

申请日：1996-02-12

申请人： Emanuel M. Sachs ,  Michael J. Cima ,  James F. Bredt ,  Satbir Khanuja ,  Richard Li-chao Yu

发明人： Emanuel M. Sachs ,  Michael J. Cima ,  James F. Bredt ,  Satbir Khanuja ,  Richard Li-chao Yu

IPC分类号： B08B3/10 ,  B08B3/12 ,  B08B5/04 ,  B08B7/00 ,  B08B9/00 ,  B22C9/06 ,  B22C9/18 ,  B22D17/22 ,  B22D25/06 ,  B22F3/00 ,  B22F5/00 ,  B24B1/04 ,  B29C33/04 ,  B29C33/38 ,  B29C33/56 ,  B29C67/00

CPC分类号： B22C9/065 ,  B08B3/10 ,  B08B3/12 ,  B08B5/04 ,  B08B7/00 ,  B08B9/00 ,  B22C9/18 ,  B22D17/22 ,  B22D17/2218 ,  B22D25/06 ,  B22F3/008 ,  B22F5/007 ,  B24B1/04 ,  B29C33/04 ,  B29C33/3828 ,  B29C67/0081 ,  B29C33/56 ,  Y02P10/292

摘要： A technique for removing loose powder from the interior surfaces of ceramic molds made using layer manufacturing processes, such as three dimensional printing processes. The interior of a mold is filled with water which is boiled and the particles are entrained in the flow caused by the boiling liquid. In another technique, the mold is immersed in water charged with CO.sub.2 and the pressure rapidly dropped to cause the CO.sub.2 to come out of solution as bubbles which eject the particles. Alternatively, fine particles are introduced into the mold and the mold is agitated to dislodge the particles and the powder so that they can be poured out of the mold. Such technique tends also to remove the surface finish of the mold. Any of the particles which remain can be dissolved in a liquid and removed in the liquid from the mold. Further, the surface finish of the mold can be improved by casting a slip of fine particles on to the surface to form a generally level, and preferably non-conformal, coating on the surfaces.

摘要翻译： 从使用层制造工艺（例如三维印刷工艺）制成的陶瓷模具的内表面去除松散粉末的技术。 模具的内部充满了煮沸的水，并且颗粒被夹带在由沸腾液体引起的流中。 在另一种技术中，将模具浸入装有二氧化碳的水中，并且压力迅速下降，导致CO 2作为喷射颗粒的气泡从溶液中排出。 或者，将细颗粒引入模具中并搅拌模具以移除颗粒和粉末，使得它们可以从模具中倒出。 这种技术也可以去除模具的表面光洁度。 残留的任何颗粒都可以溶解在液体中并从模具中移出液体。 此外，可以通过将表面上的微细颗粒的滑动铸造成在表面上形成一般水平的，优选非保形的涂层来改善模具的表面光洁度。

公开(公告)号：US5490882A

公开(公告)日：1996-02-13

申请号：US983156

申请日：1992-11-30

申请人： Emanuel M. Sachs ,  Michael J. Cima ,  James F. Bredt ,  Satbir Khanuja

发明人： Emanuel M. Sachs ,  Michael J. Cima ,  James F. Bredt ,  Satbir Khanuja

IPC分类号： B08B3/10 ,  B08B3/12 ,  B08B5/04 ,  B08B7/00 ,  B08B9/00 ,  B08B9/08 ,  B22C9/18 ,  B22C23/02 ,  B22F3/00 ,  B24B1/04 ,  B29C33/56

CPC分类号： B22F3/008 ,  B08B3/10 ,  B08B3/12 ,  B08B5/04 ,  B08B7/00 ,  B08B9/00 ,  B22C9/18 ,  B24B1/04 ,  B29C33/56

摘要： A technique for removing loose powder from the interior surfaces of ceramic molds made using layer manufacturing processes, such as three dimensional printing processes. The interior of a mold can be filled with liquid, such as water, which is boiled by applying microwave energy of a frequency selected to heat the liquid. The particles are entrained in the flow caused by the boiling liquid. Alternatively, fine particles are introduced into the mold and the mold is agitated to dislodge the particles and the powder so that they can be poured out of the mold. Such technique tends also to remove the surface finish of the mold. Any of the particles which remain can be dissolved in a liquid and removed in the liquid from the mold. Further, the surface finish of the mold can be improved by casting a slip of fine particles onto the surface to form a generally level, and preferably non-conformal, coating on the surfaces.

摘要翻译： 从使用层制造工艺（例如三维印刷工艺）制成的陶瓷模具的内表面去除松散粉末的技术。 模具的内部可以充满液体，例如水，其通过施加频率选择的加热液体的微波能量来煮沸。 颗粒被夹带在由沸腾液体引起的流中。 或者，将细颗粒引入模具中并搅拌模具以移除颗粒和粉末，使得它们可以从模具中倒出。 这种技术也可以去除模具的表面光洁度。 残留的任何颗粒都可以溶解在液体中并从模具中移出液体。 此外，可以通过将表面上的微细颗粒滑移到表面上以形成表面上的大致水平的，优选非保形的涂层来改善模具的表面光洁度。

公开(公告)号：US07250134B2

公开(公告)日：2007-07-31

申请号：US10723989

申请日：2003-11-26

申请人： Brian D. Kernan ,  Emanuel M. Sachs ,  Samuel M. Allen ,  Adam M. Lorenz

发明人： Brian D. Kernan ,  Emanuel M. Sachs ,  Samuel M. Allen ,  Adam M. Lorenz

IPC分类号： B22F3/26

CPC分类号： C22C38/18 ,  B33Y80/00 ,  C22C33/0242

摘要： A steel powder metal skeleton is infiltrated with an infiltrant composition similar to the skeleton, with an additional agent that depresses the melting point of the infiltrant relative to the skeleton. Infiltration is driven primarily by capillary pressure. The powder and infiltrant compositions differ primarily only in a higher concentration of a melting point depressant agent “MPD” in the infiltrant. Carbon (C) and silicon (Si) and several other elements can be elements in an MPD, either alone or in combination. Certain steel target compositions are such that a complementary infiltrant, and skeleton can be chosen such that a skeleton will remain solid at an infiltration temperature at which the infiltrant can be melted and fully infiltrated, and further where there is a persistent two phase field, with a liquid phase that is large enough (greater than 7% vol, and typically between 20 and 40 vol %) so that flow can be maintained without choke off from diffusional solidification. The solid and the liquid phases remaining after any diffusional solidification have different compositions, with a bulk composition of the target. Typically the difference is slight, and the full part is substantially homogeneous. Heat treating, such as austenitizing, quenching, or slow cooling and tempering, can improve homogeneity and mechanical properties. The MPD can have a relatively high diffusivity and solubility in the skeleton. Methods of designing systems of target, skeleton and infiltrant compositions and infiltration temperature are disclosed.

摘要翻译： 钢粉末金属骨架用类似于骨架的渗透剂组合物渗透，另外一种可以降低渗透剂相对于骨架的熔点的试剂。 渗透主要由毛细管压力驱动。 粉末和渗透剂组合物主要仅在浸润剂中较高浓度的熔点降低剂“MPD”。 碳（C）和硅（Si）等几种元素可以单独或组合使用在MPD中的元素。 某些钢靶组合物使得可以选择互补的浸润剂和骨架，使得骨架将在浸润剂可以熔化和完全渗透的浸润温度下保持固体，并且进一步存在持续的两相场，其中 足够大的液相（大于7体积％，通常在20和40体积％之间），从而可以保持流动而不会阻碍扩散凝固。 在任何扩散固化后残留的固体和液相具有不同的组成，具有靶的体积组成。 通常，差异很小，整个部分基本上是均匀的。 诸如奥氏体化，淬火或缓慢冷却和回火的热处理可以改善均匀性和机械性能。 MPD可以在骨架中具有相对较高的扩散性和溶解性。 公开了设计目标，骨架和浸润剂组合物系统的方法和浸润温度。

公开(公告)号：US4166688A

公开(公告)日：1979-09-04

申请号：US792055

申请日：1977-04-28

申请人： Emanuel M. Sachs

发明人： Emanuel M. Sachs

IPC分类号： G03D3/13 ,  G03D3/08

CPC分类号： G03D3/132

摘要： An automatic photographic film processor or like device for treating sheets of materials of the type provided with a plurality of approximately equal-length, annularly arranged parallel rollers positioned in longitudinally contacting relation to form the periphery of a chamber adapted to contain a processing solution, fluid-tight seals being provided between the ends of such rollers and flat side plates. The rollers are each comprised of a rigid shaft having a resilient covering of a thickness at least comparable to that of the roller shaft. The end of the roller and the side plate are contoured so that a portion of the roller adjacent to the outer diameter thereof provides a seal when brought into flush contact with the side plate. This contouring also permits the rollers to be longitudinally compressed to assist in providing the seal, while providing strain relief to the roller end in the vicinity of the shaft.

摘要翻译： 一种用于处理类型的自动摄影胶片处理器或类似装置，其设置有多个大致相等长度的环形布置的平行辊，其定位在纵向接触关系中，以形成适于容纳处理溶液的流体室的周边 在这些辊子的端部和平的侧板之间设置密封件。 滚子各自包括刚性轴，该刚性轴具有至少与辊轴的厚度相当的厚度的弹性覆盖物。 辊和侧板的端部成形，使得与其外径相邻的辊的一部分当与侧板齐平地接触时提供密封。 这种轮廓也允许辊被纵向压缩以帮助提供密封，同时为轴附近的辊端提供应变消除。