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    • 1. 发明申请
    • INDUCTION HEATING ELEMENT MADE OF GLASSY CARBON, HEATING DEVICE AND HEATER
    • 玻璃碳,加热装置和加热器的感应加热元件
    • US20090071953A1
    • 2009-03-19
    • US11911126
    • 2006-03-31
    • Maki Hamaguchi
    • Maki Hamaguchi
    • H05B6/02
    • H05B6/105H01L21/67109H01L21/67115
    • A glass-like carbon induction heating element having high heating efficiency and a heating apparatus are provided. A glass-like carbon induction heating element, which inductively generates heat by electromagnetic induction, has an infrared radiation characteristic that a ratio (E1/E2) of infrared radiation intensity (E1) of an opposed face to an object-to-be-heated to infrared radiation intensity (E2) of a non-opposed face to the object-to-be-heated exceeds 1.2. A heating apparatus has the glass-like carbon induction heating element, and a high frequency induction coil that is disposed outside the glass-like carbon induction heating element for allowing the glass-like carbon induction heating element to inductively generate heat, wherein the high frequency induction coil is applied with a current so that the object-to-be-heated is heated by infrared rays radiated from the glass-like carbon induction heating element.
    • 提供了具有高加热效率的玻璃状碳感应加热元件和加热装置。 通过电磁感应感应发热的玻璃状碳感应加热元件具有红外线辐射特性,即相对面的红外线辐射强度(E1)与被加热物体(E1)的比(E1 / E2) 对于被加热物体的非对置面的红外线辐射强度(E2)超过1.2。 加热装置具有玻璃状碳感应加热元件和设置在玻璃状碳感应加热元件外侧的高频感应线圈,用于使玻璃状碳感应加热元件感应发热,其中高频 感应线圈被施加电流,使得被加热物体被从玻璃状碳感应加热元件辐射的红外线加热。
    • 2. 发明授权
    • Heating apparatus using induction heating
    • 加热装置采用感应加热
    • US06932872B2
    • 2005-08-23
    • US10270522
    • 2002-10-16
    • Maki Hamaguchi
    • Maki Hamaguchi
    • H05B6/10C23C16/46H01L21/205H01L21/324H05B6/02C23C16/00
    • H05B6/108
    • A heating apparatus which is installed in a low pressure CVD system or annealing equipment for use in semiconductor integrated circuit manufacturing processes for heat-treating wafers on which IC's are to be formed, wherein wafers are uniformly heated, the temperature of wafers is rapidly raised and lowered, and wafers are processed in high volume, wherein the apparatus comprises a cylindrical body made of glass-like carbon placed inside a reactor, and a high-frequency induction coil which is placed outside the reactor and is for causing the cylindrical body made of glass-like carbon to produce heat and thereby heating wafers in the reactor.
    • 一种安装在低压CVD系统中的加热装置或用于半导体集成电路制造工艺的退火设备,用于对要在其上形成IC的晶片进行热处理,其中晶片被均匀加热,晶片的温度迅速升高, 降低晶片,并且大量地处理晶片,其中该装置包括放置在反应器内部的由玻璃状碳制成的圆柱体,以及设置在反应器外部并用于使由反应器制成的圆柱体的高频感应线圈 玻璃状碳以产生热量,从而加热反应器中的晶片。
    • 7. 发明申请
    • METHOD FOR MANUFACTURING GLASS-LIKE CARBON MOLDED BODY, AND GLASS-LIKE CARBON MOLDED BODY
    • 用于制造玻璃状碳纤维体的方法和类似碳玻璃的模制体
    • US20070018347A1
    • 2007-01-25
    • US11421209
    • 2006-05-31
    • Maki HAMAGUCHI
    • Maki HAMAGUCHI
    • B32B9/00
    • C04B35/524C04B38/0003C04B2111/00431C04B2111/00844C04B2235/48Y10T428/30C04B38/0032C04B2103/0056
    • A method for manufacturing a glass-like carbon molded body is provided which can obtain an excellent glass-like carbon molded body without cracks from a thermosetting resin molded body having a large thickness exceeding, for example, 10 mm, unlike in the conventional method in which an upper limit of the resin molded body has been, for example, 7 mm, even at the rate of temperature increase that is industrially practical considering the productivity at a carbonization step of heating the thermosetting resin molded body when manufacturing the glass-like carbon molded body. The method for manufacturing a glass-like carbon molded body comprises a step of carbonizing a thermosetting resin molded body by heating the molded body in inert atmosphere. The thermosetting resin molded body has one or more opened vent holes on a surface thereof, and satisfies the following formula, in which r (mm) is either a distance from an arbitrary point inside the thermosetting resin molded body to an outer surface thereof, or a distance from the arbitrary point to a surface of the vent hole, whichever is shorter, and x (° C./h) is an average rate of temperature increase in a range of 400 to 600° C. at the carbonization step: r
    • 提供了一种制造玻璃状碳成型体的方法,其可以从厚度超过例如10mm的热固性树脂成型体获得优异的玻璃状碳成型体而不发生裂纹,与常规方法不同 考虑到在制造玻璃状碳时加热热固性树脂成型体的碳化步骤的生产率,即使在温度上升的情况下,树脂成型体的上限例如为7mm 成型体。 玻璃状碳成型体的制造方法包括通过在惰性气氛下加热成型体来使热固性树脂成型体碳化的工序。 热固性树脂成型体的表面具有一个以上的开放通气孔,满足下列公式,其中r(mm)是从热固性树脂成型体内的任意点到其外表面的距离,或 从通气孔的任意点到表面的距离(以较短者为准),x(℃/ h)是在碳化步骤中在400〜600℃范围内的平均升温速度:r <(8.0-xa)/ 2,其中a = 1(mm.h /℃)。