well, first things first: these laser modules are "DPSS" or Diode Pumped Solid State lasers. green ones in particular operate like this; a infrared laser diode emitting light at a wavelength of 808nm, has its beam focused onto a Nd:YAG or Nd:YVO crystal (depending on the module and application) which is excited by the infrared light and starts lasing at a wavelength of 1064nm, which is also infrared. the 1064nm light is then passed through a KTP crystal which doubles the frequency (halving the wavelength) to 532nm, which is a very green color.
there are many things to go wrong here, as you can see. there are also many places where power is lost, so a high power IR laser diode is needed.
so, after considering that, those modules could be failing for 2 reasons:
1. the infrared laser diode is over driven (meaning the driver is set to feed it a higher current than the diode is supposed to handle) in order to make a higher IR output, instead of spending more on a diode with a higher rated output power. this overall decreases the lifespan of the module, and causes the laser diode to slowly degrade until it dies
and/or 2. the fact that DPSS lasers slowly, over time, drop in output power if they are not under optimal conditions in a very stable environment. they are also very temperature sensitive, this may play a role in whats happening.
if you could give more details about what type of laser you need i could definitely give you a recommendation on what you need to get for your application.
edit: what determines a lasers durability is operating method (Gas, solid state (crystal and DPSS), dye, free electron, semiconductor, diode, optically pumped semiconductor... there are many) and a few other things, but mainly operating method.
someone has one hooked up to a USB wall charger that's been running for something like 10000 hours. Sorry I can't find links for you, I'm on my mobile.