In Haskell, you can use unsafeCoerce
to override the type system. How to do the same in F#?
For example, to implement the Ycombinator.
I'd like to offer a different solution, based on embedding the untyped lambda calculus in a typed functional language. The idea is to create a data type that allows us to change between types α and α → α, which subsequently allows to escape the restrictions of a type system. I'm not very familiar with F# so I'll give my answer in Haskell, but I believe it could be adapted easily (perhaps the only complication could be F#'s strictness).
Note that the type parameter isn't significant for combining terms. It just allows us to embed values into our representation and extract them later. All terms of a particular type
With this data type we can use it to represent arbitrary untyped lambda terms. If we want to interpret a value of First let's define function application:
And λ abstraction:
Now we have everything we need for creating complex λ terms. Our definitions mimic the classical λterm syntax, all we do is using Let's define the Y combinator:
And we can use it to implement Haskell's classical
Now it's straightforward to define
and subsequently a recursively defined function:
Note that in the above text there is no recursive function. The only recursion is in the 


In Haskell, Another, less common use, is to reinterpret a pattern of bits as another type. For example an unboxed In F#, the first application can be achieved with For the second application, look at the BitConverter class for specific conversions of bitpatterns. In theory you could also do something like interfacing with unmanaged code to achieve this, but that seems very heavyweight. These techniques won't work for implementing the Y combinator because the cast is only valid if the runtime objects actually do have the target type, but with the Y combinator you actually need to call the same function again but with a different type. For this you need the kinds of encoding tricks mentioned in the question John Palmer linked to. 


:?>
maybe  could you provide a more concrete example of what you want. Otherwisebox > unbox
might work – John Palmer Dec 29 '13 at 8:10