Use of degradable metal alloy waste particulates in well treatment fluids

What is claimed is: 1. A method of treating a well, comprising: providing a well treatment fluid, said well treatment fluid including: a base fluid; and a plurality of degradable metal alloy milling waste particulates, wherein said degradable metal alloy milling waste particles are provided by milling a degradable metal alloy work piece to obtain a wellbore component and said degradable metal alloy milling waste particles; introducing said well treatment fluid into said well and allowing said well treatment fluid to treat the well; and allowing said degradable metal alloy milling waste particulates to degrade. 2. The method of claim 1 , wherein said well treatment fluid is provided by: providing a base fluid; providing a plurality of degradable metal alloy milling waste particles; reducing the particle size of degradable metal alloy milling waste particles to form a plurality of reduced-size degradable metal alloy milling waste particulates; and mixing said reduced-size degradable metal alloy milling waste particulates with said base fluid. 3. The method of claim 1 whereby said well treatment fluid is introduced into said well by pumping said well treatment fluid through a wellbore into a formation at a hydraulic pressure above the fracture gradient of the formation to form a fracture in the formation. 4. The method of claim 1 whereby said well treatment fluid is introduced into said well by pumping said well treatment fluid through a wellbore into a formation in a manner that causes the degradable metal alloy milling waste particulates to divert the treatment fluid from one section of the formation to another section of the formation. 5. The method of claim 1 whereby said well treatment fluid is introduced into said well in a manner that causes said metal alloy milling waste particulates to seal off one or more openings in a wellbore or formation. 6. The method of claim 1 , wherein: said well treatment fluid is introduced into said well in a manner that causes degradable metal alloy milling waste particulates to seal off a first interval of a formation; and said method further comprises after said well treatment fluid is introduced into said well in a manner that causes metal alloy milling waste particulates to seal off a first interval of the formation, pumping a stimulation fluid through a wellbore into a second interval of the formation to stimulate said second interval of the formation. 7. The method of claim 6 , wherein: said well treatment fluid further includes a plurality of degradable metal alloy milling waste particulates and a plurality of non-degradable proppant particulates; and said well treatment fluid is introduced into said well in a manner that causes the degradable metal alloy milling waste particulates to seal off said first interval of the formation by: pumping said well treatment fluid through the wellbore into the formation at a pressure above the fracture gradient of the formation to form a fracture in the formation; and placing degradable metal alloy milling waste particles and non-degradable proppant particulates from said well treatment fluid in said fracture in a manner that causes metal alloy milling waste particulates to seal off said first interval of said formation. 8. The method of claim 1 , further comprising: providing a proppant slurry; intermittently pumping said proppant slurry and said well treatment fluid through a wellbore into a formation at a pressure above the fracture gradient of the formation to form a fracture in the formation and placing non-degradable proppant particulates of said proppant slurry and degradable metal milling alloy waste particulates of said well treatment fluid in said fracture in a manner such that degradable metal milling alloy waste particulates surround proppant particulates in said fracture; ceasing pumping of said proppant slurry and said well treatment fluid into said formation thereby causing the pressure at which the proppant slurry and well treatment fluid are pumped into the formation to fall below the fracture gradient of the formation; and allowing said degradable metal alloy milling waste particulates in said fracture to degrade. 9. A method of treating a well, comprising: providing a well treatment fluid, said well treatment fluid being provided by: providing a base fluid; providing a plurality of degradable metal alloy milling waste particles, wherein said degradable metal alloy milling waste particles are provided by milling a degradable metal alloy work piece to obtain a wellbore component and said degradable metal alloy milling waste particles; reducing the particle size of degradable metal alloy milling waste particles to form a plurality of reduced-size degradable metal alloy milling waste particulates; mixing said reduced-size degradable metal alloy milling waste particulates with said base fluid to form said well treatment fluid; introducing said well treatment fluid into the well in a manner that causes metal alloy milling waste particulates to seal off a first interval of a formation; pumping a stimulation fluid through a wellbore into a second interval of the formation to stimulate said second interval of the formation; and allowing metal alloy milling waste particulates that are sealing off said first interval of the formation to degrade. 10. The method of claim 9 , wherein said reduced-size degradable metal alloy milling waste particulates are mixed with said base fluid to form said well treatment fluid using mixing equipment. 11. The method of claim 9 , wherein said well treatment fluid is introduced into the well in a manner that causes metal alloy milling waste particulates to seal off a first interval of the formation using one or more pumps.