Strength test method for metal roofing material, strength test equipment, and virtual strength test program

What is claimed is: 1. A method for testing strength of a metal roofing material, the metal roofing material comprising: a front substrate made of a metal sheet, a back substrate arranged on a back side of the front substrate, and a core material filled between the front substrate and the back substrate, the method comprising the steps of: tightening the metal roofing material to a base with the back substrate facing the base; and applying a load for uplifting an end of the metal roofing material tightened to the base to the end, the end defined by edges of the front substrate and the back substrates that are attached to each other, and measuring an uplift amount of the end, wherein a frame body to be integrated with the entire end in a width direction of the metal roofing material is attached to the end, an extending width of the end of the frame body in the width direction being wider than an extending width of the end of the metal roofing material in the width direction, and then the load is applied to the end through the frame body. 2. The method for testing strength of the metal roofing material according to claim 1 , further comprising a step of obtaining an uplift coefficient represented by an amount of change in the load relative to an amount of change in the measured uplift amount. 3. The method for testing strength of the metal roofing material according to claim 2 , further comprising a step of determining whether or not the uplift coefficient is 6 N/mm or more. 4. Strength test equipment for performing a method for testing a metal roofing material having a front substrate and a back substrate arranged on a back side of the front substrate, the strength test equipment comprising: a base to which the metal roofing material is tightened with the back substrate facing the base; a frame body attached to an end of the metal roofing material, the end defined by edges of the front substrate and the back substrate that are attached to each other, an extending width of the end of the frame body in the width direction being wider than an extending width of the end of the metal roofing material in the width direction, and integrated with the entire end in a width direction of the metal roofing material; a load applying device for applying a load for uplifting the end of the metal roofing material to the end through the frame body, the load applying device being connected to the end via the frame body; a load meter for measuring the load applied to the end from the load applying device, the load meter being interposed between the frame body and the load applying device; and a displacement meter for measuring an uplift amount of the end when the load is applied from the load applying device to the end.