Electric linear actuator

What is claimed is: 1. An electric linear actuator comprising: a housing; an electric motor mounted on the housing; a speed reduction mechanism to transmit the rotational power of the electric motor to a ball screw mechanism, via a motor shaft, while reducing the motor speed; the ball screw mechanism converts the rotational motion of the electric motor, transmitted via the speed reduction mechanism, to an axial linear motion of a drive shaft, a nut includes a helical screw groove on its inner circumference, the nut is rotationally, but axially immovably, supported by bearings on the housing, a screw shaft is coaxially integrated with the drive shaft, the screw shaft includes a helical screw groove on its outer circumference corresponding to the helical screw groove of the nut, the screw shaft is inserted into the nut, via a number of balls, the screw shaft is non-rotationally supported on the housing but is axially movable; the housing comprises a first housing and a second housing arranged with their end faces abutting against one another, the first and second housings formed from an aluminum alloy; and joining surfaces of the end faces of the first and second housings include a portion where the first housing and the second housing are in direct contact and a portion where a curable material intervenes between the first housing and the second housing, the curable material used to achieve sealing; the joining surfaces of the first and second housings are formed with a first void and a second void, the first void is formed with a substantially semicircular cross-section and the second void is formed with a substantially tri-angular cross-section, a groove formed by the first void is formed on the entire circumference of the housing, the voids are arranged opposite to and communicating with one another across the entire width of at least the first void, a smallest vertex of the substantially triangular cross-section second void is arranged on the diameter of the substantially semicircular cross-section first void and the first void is entirely filled with the liquid curable material and a volume of the curable material is larger than the first void and smaller than a total volume of the first and second voids preventing excess curable material from protruding outside of the second void; by curing the liquid curable material, sealability between the joining surfaces of the first and second housing are maintained due to viscosity of the curable material even during deformation of the housing; flexible deformation of the curable material, due to adhesiveness and viscosity, overcomes the discontinuities between the first and second housings during deformation to achieve sealability between the joining surfaces of the end faces of the first and second housings. 2. The electric linear actuator of claim 1 , wherein the curable material is a silicone-based liquid gasket. 3. The electric linear actuator of claim 1 , wherein the curable material is injected into the first void. 4. An electric linear actuator comprising: a housing; an electric motor mounted on the housing; a speed reduction mechanism to transmit the rotational power of the electric motor to a ball screw mechanism, via a motor shaft, while reducing the motor speed; the ball screw mechanism converts the rotational motion of the electric motor, transmitted via the speed reduction mechanism, to an axial linear motion of a drive shaft, a nut includes a helical screw groove on its inner circumference, the nut is rotationally, but axially immovably, supported by bearings on the housing, a screw shaft is coaxially integrated with the drive shaft, the screw shaft includes a helical screw groove on its outer circumference corresponding to the helical screw groove of the nut, the screw shaft is inserted into the nut, via a number of balls, the screw shaft is non-rotationally supported on the housing but is axially movable; the housing comprises a first housing and a second housing arranged with their end faces abutting against one another, the first and second housings formed from an aluminum alloy; and joining surfaces of the end faces of the first and second housings include a portion where the first housing and the second housing are in direct contact and a portion where a curable material intervenes between the first housing and the second housing, the curable material used to achieve sealing, the joining surfaces of the first and second housings are formed with a first void and a second void, the first void is formed with a substantially semicircular cross-section and the second void is formed with a substantially tri-angular cross-section, a groove formed by the first void is formed on the entire circumference of the housing, the voids are arranged opposite to and communicating with one another across the entire width of at least the first void; the voids are continuous about the joining surfaces forming a closed configuration when the first and second housings abut one another the voids oppose one another so that the voids are continuous enabling flow of the curable material between the voids to achieve sealability between the joining surfaces of the end faces of the first and second housings and the first void is entirely filled with the liquid curable material and a volume of the curable material is larger than the first void and smaller than a total volume of the first and second voids preventing excess curable material from protruding outside of the second void. 5. The electric linear actuator of claim 4 , wherein the curable material is a silicone-based liquid gasket. 6. The electric linear actuator of claim 4 , wherein the curable material is injected into the first void.