Abstract: A soldering method capable of alleviating positional displacement between substrates even though a step of removing flux can be omitted is provided. A temporary bonding agent 55 is applied onto multiple substrates 50a, 50b, and a heater 33 heats the substrates while the substrates are temporarily bonded with the temporary bonding agent 55 interposed therebetween, and before the solder 54 is melted or while the solder 54 is melted, the temporary bonding agent 55 is evaporated, and the substrates 50a, 50b are bonded with solder with the melted solder 54 interposed therebetween.

Abstract: Provide is an apparatus for thermal melting processes that is capable of directly cooling the process object without requiring a separate cooling plate. The apparatus for thermal melting process according to the present invention is an apparatus 1 for thermal melting process that thermally melts objects 100 including solder in an atmosphere containing carbonic acid vapor, and the hand part 4 for carrying and transferring the thermally melted process objects 100 is used as a cooling plate as well.

Abstract: Provide is an apparatus for thermal melting processes that is capable of directly cooling the process object without requiring a separate cooling plate. The apparatus for thermal melting process according to the present invention is an apparatus 1 for thermal melting process that thermally melts objects 100 including solder in an atmosphere containing carbonic acid vapor, and the hand part 4 for carrying and transferring the thermally melted process objects 100 is used as a cooling plate as well.

Abstract: Provide is an apparatus for thermal melting processes that is capable of directly cooling the process object without requiring a separate cooling plate. The apparatus for thermal melting process according to the present invention is an apparatus 1 for thermal melting process that thermally melts objects 100 including solder in an atmosphere containing carbonic acid vapor, and the hand part 4 for carrying and transferring the thermally melted process objects 100 is used as a cooling plate as well.

Abstract: A soldering method capable of alleviating positional displacement between substrates even though a step of removing flux can be omitted is provided. A temporary bonding agent 55 is applied onto multiple substrates 50a, 50b, and a heater 33 heats the substrates while the substrates are temporarily bonded with the temporary bonding agent 55 interposed therebetween, and before the solder 54 is melted or while the solder 54 is melted, the temporary bonding agent 55 is evaporated, and the substrates 50a, 50b are bonded with solder with the melted solder 54 interposed therebetween.

Abstract: A soldering method capable of alleviating positional displacement between substrates even though a step of removing flux can be omitted is provided. A temporary bonding agent 55 is applied onto multiple substrates 50a, 50b, and a heater 33 heats the substrates while the substrates are temporarily bonded with the temporary bonding agent 55 interposed therebetween, and before the solder 54 is melted or while the solder 54 is melted, the temporary bonding agent 55 is evaporated, and the substrates 50a, 50b are bonded with solder with the melted solder 54 interposed therebetween.

Abstract: A substrate bonding method for mutually bonding substrates, has a first radiation step for irradiating the surfaces of the individual substrates with an oxygen particle beam, a second radiation step for irradiating the surfaces of the individual substrate with a nitrogen particle beam simultaneously with or subsequently to the first radiation step, and a step for stacking the individual substrates and bringing the surfaces thereof into close contact. Particularly, the substrates which have been irradiated first with an oxygen plasma and subsequently with a nitrogen plasma are stacked and bonded.

Abstract: A method for bonding of substrates has a steps of irradiating surfaces of the substrates respectively in a vacuum with both an inert gas beam and a metal beam thereby forming island shaped thin metal films on the surfaces of the substrates, and surface-activated bonding of the substrates through the island shaped thin metal films by contacting the surfaces of the substrates each other.

Abstract: This invention presents methods and dispensers which are used for a new way of filling liquid crystal into a LCD cell. The invented methods use the invented liquid crystal dispenser able to release liquid crystal with sufficient controllability at an evacuated atmosphere. Liquid crystal is filled through an inlet of an assembled LCD cell, or filled by laminating an upper substrate with a lower substrate on which liquid crystal has been dropped. The invented liquid crystal dispensers have an opening, in addition to the opening for a capillary, through which interior air bubbles can be released out so as not to be released from the capillary.