摘要:
A sheathed-element glow plug to be mounted in a combustion chamber is proposed, a rod-shaped heating element being situated in a concentric bore hole of the housing. The heating element has a first current-carrying layer, a second current-carrying layer, and an insulating layer, the insulating layer separating the first current-carrying layer and the second current-carrying layer. The first current-carrying layer and the second current-carrying layer being connected at the end of the heating element on the combustion chamber side by a conducting-layer crosspiece. The first current-carrying layer and the second current-carrying layer are different lengths, the cross section of the first current-carrying layer in a first section at the end of the heating element away from the combustion chamber being greater than the cross section of its remaining length, and the second current-carrying layer not extending into the first section.
摘要:
A thermoelectric component includes a first and a second element which, in the vicinity of a contact point, are in contact with each other, e.g., in the form of a thermal contact. Furthermore, in this connection, first element and/or second element have a ceramic material at least in one vicinity of contact point. The component may be suitable as a thermocouple for measuring temperature based on the Seebeck effect, or for use in a Peltier element as a thermoelectric heating element or cooling element based on the Peltier effect.
摘要:
A ceramic sheathed element glow plug has a tubular metal casing holding a ceramic U-shaped heating device cantilevered at its end facing the combustion chamber, and on the end remote from the combustion chamber, it has a terminal pin for applying a voltage to the ceramic heating device. In the metal casing, a ceramic bushing and a ring follow the ceramic heating device at the end remote from the combustion chamber.
摘要:
A ceramic sheathed-element glow plug is proposed in which a metallic tubular holder holds a ceramic U-shaped heating device in a cantilevered fashion at its combustion chamber side end and has a terminal stud for applying a voltage to the ceramic heating device on the end remote from the combustion chamber. At its end enclosed by the holder, the ceramic heating device has a segment of greatest diameter and is coated with an insulating layer which has recesses for an electrical contacting. One recess is provided at the end of the ceramic heating device remote from the combustion chamber and a second recess is provided on the external wall of the ceramic heating device. A for an electrically conductive sealing compound is provided between the external wall of the ceramic heating device and the internal wall of the holder.
摘要:
A ceramic composite material, for example, a ceramic molded body or a layer obtained by pyrolysis of a starting mixture, containing at least one polymer precursor material and at least one filler, which has an average particle size of less than 200 nm. Such a composite material may be used, for example, for producing fibers, filters, catalyst support materials, ceramic sheathed-element glow plugs, metal-containing reactive composite materials, porous protective shells for sensors, ceramic or partially ceramic coatings or microstructured ceramic components.
摘要:
A polymer compound containing a ceramic powder and a polymer is described, the ceramic powder having a specific surface area of more than 1.8·108 m2/m3 and constituting more than 5 vol. % of the polymer compound, the polymer being shear resistant, and the pore sizes in the polymer compound being 3-15 nm. Furthermore, a method for manufacturing this polymer compound, its use, and a sintered body manufactured therefrom are also described.
摘要翻译:描述了含有陶瓷粉末和聚合物的高分子化合物,陶瓷粉末的比表面积大于1.8.108m 2 / m 3,构成大于5体积% 高分子化合物的%,聚合物是抗剪切的,高分子化合物中的孔径为3-15nm。 此外,还描述了制造该高分子化合物的方法,其用途和由其制造的烧结体。
摘要:
A piezoelectric ceramic material having the molar composition Pb(1+c)−x−(3/2a)−1/2(x·b)A1xA2a(Zry(1−x·b−x·z)Ti(1−y)(1−x·b−x·w))(B1bB2zB3w)xO3 where A1 is selected from the group Ca, Mg, Sr, Ba, or their mixtures, A2 is selected from the group of rare-earth elements or their mixtures, B1 is selected from the group Nb, Ta, or Sb or their mixtures, B2 is Cu or a mixture of Cu with at least one element selected from the group Zn, Ni, Co, or Fe, and B3 is Fe, and where the following applies: 0.001≦a≦0.05; 0.05≦b≦0.90; 0≦c≦0.04; 0.005≦x≦0.03; 0.5≦y≦0.55; 0.05≦z≦0.90; 0≦w≦0.5. Furthermore, an electroceramic multilayer component is described having insulating layers containing such a material. Two manufacturing methods are described for the ceramic material, metal ions being introduced as powdered oxides and/or carbonates, mixed together, and calcined to form the ceramic material, or powdered ZrO2 and TiO2 is calcined to form ZryTi1−yO2 where 0.50
摘要翻译:具有其中A 1的摩尔组成的压电陶瓷材料选自Ca,Mg,Sr,Ba或它们的混合物,A 2选自稀土元素或它们的混合物B 1 >选自Nb,Ta或Sb或它们的混合物,B 2是Cu或Cu与选自Zn,Ni,Co或Fe中的至少一种元素的混合物,以及B 3 是Fe,以下适用范围:0.001 <= a <= 0.05; 0.05 <= b <= 0.90; 0 <= c <= 0.04; 0.005 <= x <= 0.03; 0.5 <= y <= 0.55; 0.05 <= z <= 0.90; 0 <= w <= 0.5。 此外,描述了具有包含这种材料的绝缘层的电陶瓷多层组件。 对于陶瓷材料描述了两种制造方法,将金属离子作为粉末状氧化物和/或碳酸盐引入,混合在一起并煅烧形成陶瓷材料,或将粉末状的ZrO 2和TiO 2煅烧形成ZryTi1-yO2,其中0.50
摘要:
A sheathed type glow plug preheats the combustion chamber mixture of an auto-ignition internal combustion engine. The sheathed type glow plug comprises a ceramic heating apparatus; the resistance of the ceramic heating apparatus is increased by a reduction in cross section at the point which is most accessible to the combustion chamber mixture.
摘要:
A sintered, magnetically soft composite is proposed, especially for use in solenoid valves, and a process for producing such a composite, in which initially a starting mixture from which the magnetically soft composite is formed after sintering is produced, having a ferromagnetic, especially powdery first starting component (11) as main constituent, and a ferritic second starting component (12) as secondary constituent, as well as possibly a pressing aid. After the starting mixture is sintered, the second starting component (12) is present in the produced composite at least largely as grain boundary phase. The proposed manufacturing process includes the process steps: provision of the starting mixture; mixing of the starting mixture; compression of the starting mixture in a cavity mold under increased pressure; removal of the binder from the compressed starting mixture; and sintering of the compressed starting mixture to form the composite.
摘要:
A method for producing shaped bodies from hard ferrites, includes (a) providing a powder of hard ferrite material having a fine particle size; (b) adding to the powder a plastifying and bonding agent which comprises (a) at least one of cyclododecane, cyclododecanol, and stearyl alcohol and (b) stearic acid to provide a mixture; (c) shaping the mixture into a blank; (d) heating at a temperature effective to remove the plastifying and bonding agent from the blank; and (e) subsequently heating the blank to a temperature effective to sinter the powder. The method is suitable for the production of magnets, in particular segmental magnets.