Strain gauge and sensor module

The invention claimed is: 1. A strain gauge comprising: a flexible substrate; and a plurality of resistors each formed of a film containing Cr, CrN, and Cr 2 N, on or above the substrate, the resistance of each resistor changing in accordance with a strain; and pairs of terminals, each pair of terminals being electrically coupled to a corresponding resistor among the plurality of resistors, such that the change in the resistance of the corresponding resistor is output via the pair of terminals, wherein the substrate is attached to a flexure element, the plurality of resistors including two resistors disposed at locations at which the two resistors are opposite to each other, such that the flexure element is interposed between the two resistors, wherein the flexure element is cuboidal, wherein the pairs of terminals are respectively provided on surfaces of the cuboidal flexure element, the pair of terminals and the resistors provided on different surfaces of the cuboidal flexure element. 2. The strain gauge according to claim 1 , wherein the substrate includes a first region where a first surface of the flexure element is attachable and includes a second region and a third region where a second surface and a third surface of the flexure element that are each adjacent to the first surface of the flexure element and that are opposite to each other are attachable, and wherein one among the two resistors is disposed with respect to the second region, and another among the two resistors is disposed with respect to the third region. 3. A strain gauge comprising: a flexible substrate; and a plurality of resistors each formed of a Cr composite film, on or above the substrate, wherein the substrate is attached to a flexure element, the plurality of resistors including: two resistors disposed at locations at which the two resistors are opposite to each other, such that the flexure element is interposed between the two resistors; and two other resistors disposed at locations at which the two other resistors are opposite to each other, such that the flexure element is interposed between the two other resistors, wherein the substrate includes a first region where a first surface of the flexure element is attachable; a second region and a third region where a second surface and a third surface of the flexure element that are each adjacent to the first surface of the flexure element and that are opposite to each other are attachable; and a fourth region and a fifth region where a fourth surface and a fifth surface of the flexure element that are each adjacent to the first surface of the flexure element and that are opposite to each other are attachable, wherein one among the two resistors is disposed with respect to the second region, and another among the two resistors is disposed with respect to the third region, and wherein one among the two other resistors is disposed with respect to the fourth region, and another among the two other resistors is disposed with respect to the fifth region. 4. The strain gauge according to claim 2 , further comprising electrodes electrically connected to each of the resistors, wherein the electrodes are disposed with respect to the first region. 5. The strain gauge according to claim 1 , wherein the resistors opposite to each other are disposed on or above the substrate, such that grid directions of the resistors are toward a same direction. 6. The strain gauge according to claim 1 , wherein the substrate is formed of a resin. 7. The strain gauge according to claim 6 , further comprising a functional layer formed of a metal, an alloy, or a metal compound, directly on one surface of the substrate, wherein the resistors are formed on one surface of the functional layer. 8. The strain gauge according to claim 7 , wherein the functional layer promotes crystal growth of the resistors; protects the resistors from oxidation; suppresses movement of oxygen and moisture present in the substrate into the resistors; and/or improves adhesion between the substrate and each resistor. 9. The strain gauge according to claim 7 , wherein an element contained in the functional layer is diffused into the resistors. 10. The strain gauge according to claim 9 , wherein each resistor includes a nitride of the element. 11. The strain gauge according to claim 7 , wherein the functional layer is patterned in a same planar shape as the resistors. 12. The strain gauge according to claim 7 , wherein a thickness of the functional layer is between 1 nm and 100 nm. 13. A sensor module comprising: the strain gauge according to claim 1 ; and the flexure element to which the substrate is attached, wherein at least the two resistors are disposed at locations at which the two resistors are opposite to each other, such that the flexure element is interposed between the two resistors.