Abstract: A t-joint assembly includes a gasket having first and second ends, and a substantially elongated body having a profile. The first end includes an enlarged tapered section having a distal tip and a force-transfer surface disposed substantially perpendicular to the body. The assembly also includes a first component having a channel with a profile and a reaction surface configured to respectively complement the profile and accept the force-transfer surface of the gasket. The first component also has a first sealing surface arranged substantially parallel to the reaction surface, and a second sealing surface arranged substantially perpendicular to the reaction surface. The t-joint assembly additionally includes second and third components, each having a sealing surface. Inserting the gasket into the channel and assembling the three components compresses the gasket against the channel, and the tip of the gasket against the reaction surface, to thereby seal the t-joint.

Abstract: A t-joint assembly includes a gasket having first and second ends, and a substantially elongated body having a profile. The first end includes an enlarged tapered section having a distal tip and a force-transfer surface disposed substantially perpendicular to the body. The assembly also includes a first component having a channel with a profile and a reaction surface configured to respectively complement the profile and accept the force-transfer surface of the gasket. The first component also has a first sealing surface arranged substantially parallel to the reaction surface, and a second sealing surface arranged substantially perpendicular to the reaction surface. The t-joint assembly additionally includes second and third components, each having a sealing surface. Inserting the gasket into the channel and assembling the three components compresses the gasket against the channel, and the tip of the gasket against the reaction surface, to thereby seal the t-joint.

Abstract: A turbo assembly may include a coupling member, a heat shield, and a turbo mechanism. The coupling member may include first and second ends and an annular body extending between the first and second ends. The first end may fix the coupling member to an exhaust manifold of an engine and the annular body may define an exhaust gas channel that receives exhaust gas from the exhaust manifold. The annular body may include a coolant passage that receives a coolant fluid. The heat shield may extend axially within the exhaust gas channel and radially between the annular body and an exhaust gas flow within the exhaust gas channel to limit an amount of heat transferred from the exhaust gas to the annular body. The turbo mechanism may include a housing fixed to the second end of the coupling member and in communication with the exhaust gas channel to receive the exhaust gas therefrom.

Abstract: A turbo assembly may include a coupling member, a heat shield, and a turbo mechanism. The coupling member may include first and second ends and an annular body extending between the first and second ends. The first end may fix the coupling member to an exhaust manifold of an engine and the annular body may define an exhaust gas channel that receives exhaust gas from the exhaust manifold. The annular body may include a coolant passage that receives a coolant fluid. The heat shield may extend axially within the exhaust gas channel and radially between the annular body and an exhaust gas flow within the exhaust gas channel to limit an amount of heat transferred from the exhaust gas to the annular body. The turbo mechanism may include a housing fixed to the second end of the coupling member and in communication with the exhaust gas channel to receive the exhaust gas therefrom.