Pressure pump connecting rod monitoring

What is claimed is: 1. A system, comprising: a housing enclosing a pump power end; a crankshaft disposed in the housing; a connecting rod enclosed within the housing, wherein the connecting rod comprises a first end coupled to the crankshaft; a crosshead enclosed within the housing, wherein the crosshead is coupled to a second end of the connecting rod opposite the first end; and a temperature sensor assembly at least partially disposed on the housing, wherein the temperature sensor assembly is communicatively coupled to a controller located outside the housing, and wherein the temperature sensor assembly is positioned such that the temperature sensor assembly detects a temperature of the connecting rod or the crosshead; wherein the temperature sensor assembly comprises an infrared sensor mounted to the housing, wherein a wavelength of electromagnetic energy transmitted from the infrared sensor is tuned to a type of lubricating oil on the connecting rod or crosshead. 2. The system of claim 1 , further comprising the controller and a user interface coupled to the controller for outputting alerts when a detected temperature of the connecting rod or the crosshead exceeds a predetermined threshold. 3. The system of claim 1 , wherein the temperature sensor assembly further comprises a second infrared sensor mounted to the housing on an opposite side of the connecting rod or crosshead from the infrared sensor. 4. The system of claim 1 , further comprising a target material disposed on the connecting rod or the crosshead for detection by the infrared sensor. 5. The system of claim 4 , wherein the target material comprises material that emits or reflects energy at wavelengths capable of passing through the type of lubricating oil on the connecting rod or crosshead. 6. The system of claim 1 , further comprising a position sensor communicatively coupled to the controller and disposed on the pump power end to detect a position of the crankshaft. 7. A method, comprising: transferring rotational movement from a crankshaft into reciprocating motion of a crosshead via a connecting rod coupled between the crankshaft and the crosshead, wherein the crankshaft, connecting rod, and crosshead are disposed within a housing of a pump power end; detecting a temperature of the connecting rod or the crosshead via a temperature sensor assembly disposed at least partially on the housing, wherein the temperature sensor assembly comprises an infrared sensor mounted to the housing, wherein a wavelength of electromagnetic energy transmitted from the infrared sensor is tuned to a type of lubricating oil on the connecting rod or crosshead; outputting a sensor signal from the temperature sensor assembly to a controller located outside the housing; and alerting an operator via a user interface coupled to the controller when the detected temperature of the connecting rod or crosshead exceeds a predetermined threshold. 8. The method of claim 7 , further comprising: detecting the temperature of the connecting rod or the crosshead over a period of time; continually outputting sensor signals to the controller over the period of time; and storing trend data representative of the sensor signals in a database. 9. The method of claim 7 , further comprising detecting a rotational position of the crankshaft, and determining a bearing in the pump power end that is malfunctioning based on the detected rotational position and the detected temperature. 10. The method of claim 7 , further comprising comparing sensor signals received from the temperature sensor assembly to sensor signals received from a second temperature sensor assembly disposed in the pump power end. 11. The method of claim 7 , further comprising comparing sensor signals received from the temperature sensor assembly to sensor signals received from a second temperature sensor assembly disposed in a second pump power end. 12. The method of claim 7 , further comprising detecting a temperature of the connecting rod or the crosshead via a second temperature sensor assembly disposed on an opposite side of the connecting rod or crosshead from the temperature sensor assembly. 13. The method of claim 7 , wherein detecting the temperature of the connecting rod or the crosshead comprises detecting a temperature of a layer of the lubricating oil on the connecting rod of the crosshead. 14. The method of claim 7 , wherein detecting the temperature of the connecting rod or the crosshead comprises receiving energy reflected or emitted from a target material disposed on the connecting rod or crosshead. 15. The method of claim 14 , wherein the target material comprises material that emits or reflects energy at wavelengths capable of passing through the type of lubricating oil on the connecting rod or crosshead. 16. A method, comprising: transferring rotational movement from a crankshaft into reciprocating motion of a crosshead via a connecting rod coupled between the crankshaft and the crosshead, wherein the crankshaft, connecting rod, and crosshead are disposed within a housing of a pump power end; detecting a temperature of the connecting rod or the crosshead via a temperature sensor assembly disposed at least partially on the housing; outputting a sensor signal from the temperature sensor assembly to a controller located outside the housing; detecting a rotational position of the crankshaft; alerting an operator via a user interface coupled to the controller when the detected temperature of the connecting rod or crosshead exceeds a predetermined threshold; and determining a bearing in the pump power end that is malfunctioning based on the detected rotational position and the detected temperature. 17. The method of claim 16 , wherein the temperature sensor assembly comprises an infrared sensor mounted to the housing. 18. The method of claim 16 , wherein the temperature sensor assembly comprises a contact temperature sensor disposed at a distal end of a flexible member or spring-loaded plunger mounted to and extending from the housing. 19. The method of claim 16 , wherein the temperature sensor assembly comprises a mechanical plunger mounted to the connecting rod or crosshead via a material that breaks down at a predetermined temperature to release the mechanical plunger toward a switch on the housing. 20. The method of claim 16 , wherein the temperature sensor assembly comprises a temperature sensor directly coupled to the connecting rod or crosshead.