Hybrid power transmission cord

What is claimed is: 1 - 3 . (canceled) 4 . A heat-treated hybrid cord, comprising: a. at least one core yarn having a Young's modulus; and b. a plurality of wrapping yarns twisted around the at least one core yarn, each wrapping yarn having a strength of at least 2.5 GPa and a Young's modulus that is at least 5 GPa greater than the Young's modulus of the at least one core yarn; and c. wherein the wrapping yarns are twisted in a first direction and then twisted in the opposite direction in the range from about 1 to about 7 twists per inch around the at least core yarn to form a greige cord; and d. wherein the wrapping yarns in the greige cord have an untwisted yarn length that is about 0.8% to about 5% greater than the untwisted yarn length of the at last one core yarn in the greige cord; and e. wherein after twisting the residual twist for the at least one core yarn is in the range from about 1 to about 7 twists per inch in the greige cord and after twisting the residual twist for the wrapping yarns is in the range from about 2 to about 8 twists per inch in the greige cord; and f. wherein the heat-treated hybrid cord has a LASE3 value of at least 190 pounds and an elongation at break of less than 10%. 5 . The heat-treated hybrid cord according to claim 4 wherein the at least one core yarn has a radius within the range of about 0.010 inches to about 0.017 inches and a Young's modulus of 5.0 to 70.0 GPa, wherein each of the wrapping yarns has a radius within the range of about 0.008 inches to about 0.015 inches, a Young's modulus greater than 70 GPa, and a strength of at least 2.5 GPa, and wherein the heat-treated hybrid cord has a breaking strength of at least 320 pounds and a LASE3 value of at least 190 pounds. 6 . The heat-treated hybrid cord according to claim 4 wherein the greige hybrid cord is loaded with about 0.1 to about 2.5 grams per denier tension and heated at a temperature of about 100° C. to about 230° C. for about 25 seconds to about 150 seconds in an oven for a time at a temperature and under a load sufficient to accomplish any one of or any two or more of: a. provide an increase of at least 50% or at least 100% or at least 190% in LASE3 value in the heat-treated hybrid cord as compared to the greige hybrid cord; and/or / b. provide a free shrinkage of at least 2½ percent or at least 4 percent; and/or c. provide a shrinkage force of at least 3 pounds or at least 4 pounds or at least 15 pounds; and/or d. reduce the elongation at break percentage of the heat-treated hybrid cord by at least 1% or by at least 2% as compared to the elongation at break percentage of the greige hybrid cord. 7 . The heat-treated hybrid cord according to claim 4 wherein the number of wrapping yarns is equal to one of (a) the maximum integer number of those wrapping yarns that can be wrapped in a single layer around that core and (b) one less than the maximum integer number of those wrapping yarns that can be wrapped in a single layer around that core, as determined by the formula: Max Wrap Yarns=|cos β·π/α| where β=tan −1 (π· T· 2 ·[r w +r c ]) α=sin −1 (r w /[r w +r c ]) T=twists per inch r c =radius of core yarn r w =radius of wrapping yarn. 8 . The heat-treated hybrid cord according to claim 4 wherein the wrapping yarns are twisted in the range of about 4 and about 6½ twists per inch and then the wrapping yarns and the at least one core yarn are twisted in the opposite direction in the range of about 3 and about 41/2 twists per inch and, after twisting, the residual twist in the wrapping yarns for the greige cord is in the range of from about 1 to about 2½ twists per inch. 9 . The heat-treated hybrid cord according to claim 5 : wherein the at least one core yarn comprises a yarn comprising polyester having a denier in the range of about 1500 to about 4500; wherein the wrapping yarns comprise 4 or 5 1500 denier yarns comprising aramid; wherein the wrapping yarns are twisted in the range of about 4 and about 6½ twists per inch and then the wrapping yarns and the at least one core yarn are twisted in the opposite direction in the range of about 3 and about 41/2 twists per inch and, after twisting, the residual twist in the wrapping yarns for the greige cord is in the range of from about 1 to about 2½ twists per inch; wherein the number of wrapping yarns is equal to one of (a) the maximum integer number of those wrapping yarns that can be wrapped in a single layer around that core and (b) one less than the maximum integer number of those wrapping yarns that can be wrapped in a single layer around that core, as determined by the formula: Max Wrap Yarns=|cos β·π/α| and wherein the greige hybrid cord is loaded with a load per total denier in a range of about 0.7 to about 0.8 grams per total greige cord denier and heated at a temperature in a range of about 225° C. to about 235° C. for about 60 seconds to about 120 seconds in an oven for a time at a temperature and under a load sufficient to accomplish the following: a. provide an increase of at least 50% or at least 100% or at least 190% in LASE3 value in the heat-treated hybrid cord as compared to the greige hybrid cord; and b. provide a free shrinkage of at least 2½ percent or at least 4 percent; and c. provide a shrinkage force of at least 3 pounds or at least 4 pounds or at least 15 pounds; and d. reduce the elongation at break percentage of the heat-treated hybrid cord by at least 1% or by at least 2% as compared to the elongation at break percentage of the greige hybrid cord. 10 . An endless power transmission belt, comprising: an elastomeric body and at least one heat-treated hybrid cord embedded in the elastomeric body, the at least one heat-treated hybrid cord comprising: a. at least one core yarn having a Young's modulus; and b. a plurality of wrapping yarns twisted around the at least one core yarn, each wrapping yarn having a strength of at least 2.5 GPa and a Young's modulus that is at least 5 GPa greater than the Young's modulus of the at least one core yarn; and c. wherein the wrapping yarns are twisted in a first direction and then twisted in the opposite direction in the range from about 1 to about 7 twists per inch around the at least core yarn to form a greige cord; and d. wherein the wrapping yarns in the greige cord have an untwisted yarn length that is about 0.8% to about 5% greater than the untwisted yarn length of the at last one core yarn in the greige cord; and e. wherein after twisting the residual twist for the at least one core yarn is in the range from about 1 to about 7 twists per inch in the greige cord and after twisting the residual twist for the wrapping yarns is in the range from about 2 to about 8 twists per inch in the greige cord; and f. wherein the heat-treated hybrid cord has a LASE3 value of at least 190 pounds and an elongation at break of less than 10%. 11 . The endless power transmission belt according to claim 10 : wherein the endless power transmission belt has a Flex Fatigue Life greater than 50 hours using an unevenly misaligned dead weight type of Flex Fatigue Life test with a dead weight of about 170 pounds and driven at about 3300 revolutions per minute (RPM); and wherein the endless power transmission belt has a center distance (CD) belt growth of less than 0.80% over the life of the belt during the unevenly misaligned dead weight type of Flex Fatigue Life test. 12 . The heat-treated hybrid cord according to claim 11 wherein the greige hybrid cord is loaded with about 0.1 to about 2.5 grams per denier tension and heated at a temperature of about 100° C. to about 230° C. for about 25 seconds to about 150 seconds in an oven for a time at a tempera