Exhaust gas turbocharger coupling assembly

The invention claimed is: 1. A method of coupling an exhaust gas turbocharger to an engine exhaust manifold, the method comprising: providing a coupling assembly comprising a first flange coupleable to the engine exhaust manifold, a second flange coupleable to the exhaust gas turbocharger, and fasteners for coupling the first flange to the second flange, the coupling assembly further comprising an overhanging lip coupled to the first flange, the overhanging lip overhanging the first flange so as to define a slot between the first flange and the overhanging lip, inserting the second flange into the slot so as to restrict the first and second flanges moving apart, the overhanging lip including a portion that extends towards a mating surface of the first flange and the second flange, and the overhanging lip including a portion that extends away from the mating surface of the first flange and the second flange, and tightening the fasteners to increase a compressive load between the overhanging lip and the second flange. 2. The method of claim 1 , where the second flange includes a curved edge that extends in a direction away from the mating surface of the second flange and away from the first flange toward the overhanging lip when the first and second flanges are coupled. 3. A turbocharger coupling shaped to mate to an exhaust manifold, comprising: a second flange engaging a first flange; where a portion of the second flange comprises a second cam surface being positioned to face an overhanging lip of the first flange when installed, where the portion of the second flange positioned to face the overhanging lip includes a curved edge that extends in a direction away from a mating surface of the first flange and the second flange and away from the first flange towards the overhanging lip coupled to the first flange when the first flange is coupled to the second flange, where the overhanging lip includes a portion that extends away from the mating surface of the first flange and the second flange and a portion that extends towards the mating surface of the first flange and the second flange, and where the curved edge of the portion of the second flange positioned in the overhanging lip transitions into the mating surface. 4. The turbocharger coupling of claim 3 , where the turbocharger coupling is an exhaust gas turbocharger coupling assembly positioned in an engine of a vehicle, and where the second flange is coupled to one, but not the other of the exhaust manifold or a turbocharger, and the first flange is coupled to the other of the exhaust manifold or the turbocharger; further comprising fasteners for coupling the second flange to the first flange; and further comprising tightening the fasteners to increase a compressive load between the overhanging lip and the curved edge. 5. An exhaust gas turbocharger coupling assembly configured to couple an exhaust gas turbocharger to an engine exhaust manifold, the coupling assembly comprising: a first flange, the first flange being coupleable to the engine exhaust manifold; and an overhanging lip coupled to the first flange, the overhanging lip overhanging the first flange so as to define a slot between the first flange and the overhanging lip; where the slot is configured to receive a portion of a second flange associated with the exhaust gas turbocharger so as to restrict the first and second flanges moving apart when assembled, where the portion of the second flange received by the slot includes a curved edge that extends in a direction away from a mating surface of the first flange and the second flange and toward the overhanging lip when the first and second flanges are coupled, where the overhanging lip includes a convex portion that extends towards the mating surface of the first flange and the second flange, and where the overhanging lip includes a concave portion that extends away from the mating surface of the first flange and the second flange, where a side of the second flange opposite the portion of the second flange received by the slot is coupled to the first flange via a fastener; and where the curved edge of the second flange transitions into the mating surface. 6. The exhaust gas turbocharger coupling assembly of claim 5 , where the convex portion of the overhanging lip is a part of a first cam surface configured to engage a corresponding second cam surface on the second flange, and where the first cam surface is positioned so as to face the first flange; and further comprising tightening the fastener to couple the first flange to the second flange and increase a compressive load between the overhanging lip and the curved edge of the second flange. 7. The exhaust gas turbocharger coupling assembly of claim 6 , where the first cam surface is configured such that the interaction with the second cam surface on the second flange enables alignment between the first and second flanges. 8. The exhaust gas turbocharger coupling assembly of claim 6 , where the overhanging lip is coupled to the first flange at a point that is closest to a cylinder head of an engine when installed. 9. The exhaust gas turbocharger coupling assembly of claim 6 , where the first flange is further configured to be coupled to the second flange with one or more fastenings at points spaced apart from the overhanging lip. 10. The exhaust gas turbocharger coupling assembly of claim 9 , where the first cam surface is configured such that, upon tightening the one or more fastenings, the second flange moves relative to the overhanging lip so as to increase the compressive load between the first and second flanges at the point where the overhanging lip is provided. 11. The exhaust gas turbocharger coupling assembly of claim 9 , where the second flange comprises the second cam surface, where the second cam surface is positioned to face the overhanging lip of the first flange when installed. 12. The exhaust gas turbocharger coupling assembly of claim 11 , where the first and second cam surfaces are configured such that, upon tightening the one or more fastenings, the second flange moves relative to the overhanging Hp so as to increase the compressive load between the first and second flanges at the point where the overhanging lip is provided. 13. The exhaust gas turbocharger coupling assembly of claim 5 , where the overhanging lip is coupled to the first flange at a point that is obscured from view by the exhaust gas turbocharger when installed. 14. The exhaust gas turbocharger coupling assembly of claim 5 , where the overhanging lip and the first flange are integral. 15. The exhaust gas turbocharger coupling assembly of claim 5 , where the exhaust as turbocharger coupling assembly is included in an engine, and the slot in which the second flange is restrained by the overhanging lip and the first flange. 16. The exhaust gas turbocharger coupling assembly of claim 15 , where the engine is included in a vehicle.