As others have already said, portability is somewhat of a fuzzy concept. From a certain perspective, C is actually more portable than Java. C makes very few assumptions about the underlying hardware. It doesn't even assume that there are 8 bits in a byte, or that negative numbers should be represented using two's complement. Theoretically, as long as you have a Von Neumann based machine and a compiler, you're good to go with C.
In fact, a "Hello world" program written in C is going to work on many more platforms than a "Hello world" program written in Java. You could probably get the same "hello world" program to work on a PDP-11 and an iPhone.
However, the reality is that most real-world programs do a lot more than output "Hello world". Java has a reputation for being more portable than C because in practice, it takes a lot more effort to port real-world C programs to different platforms than real-world Java programs.
This is because the C language is really ANSI-C, which is an extremely general-purpose, bare-bones language. It has no support for network programming, threading, or GUI development. Therefore, as soon as you write a program which includes any of those things, you have to fall back on a less-portable extension to C, like Win32 or POSIX or whatever.
But with Java, network programming, threading, and GUI tools are defined by the language and built into each VM implementation.
That said, I think a lot of programmers also underestimate the progress modern C/C++ has made in regard to portability these days. POSIX goes a long way towards providing cross-platform threading, and when it comes to C++, Boost provides networking and threading libraries which are basically just as portable as anything in Java. These libraries have some platform-specific quirks, but so does Java.
Essentially, Java relies on each platform having a VM implementation which will interpret byte code in a predictable way, and C/C++ relies on libraries which incorporate platform specific code using the preprocessor (
#ifdefs). Both strategies allow for cross platform threading, networking, and GUI development. It's simply that Java has made faster progress than C/C++ when it comes to portability. The Java language spec had threading, networking and GUI development almost from day one, whereas the Boost networking library only came out around 2005, and it wasn't until 2011 with C++11 that standard portable threading was included in C++.