Hot rolled ferritic stainless steel sheet, method for producing same, and method for producing ferritic stainless steel sheet

The invention claimed is: 1. A hot-rolled ferritic stainless steel sheet excellent in cold cracking properties having a steel composition containing, in terms of % by mass: 0.0010% to 0.010% of C; 0.01% to 1.0% of Si; 0.01% to 2.00% of Mn; less than 0.040% of P; 0.010% or less of S; 10.0% to 30.0% of Cr; 1.0% to 2.0% of Cu; 0.001% to 0.10% or 0.50% to 3.0% of Al; and 0.0030% to 0.0200% of N, with the balance being Fe and unavoidable impurities, wherein in crystal grains, a number density of Cu clusters, which consist of Cu and have maximum diameters of 5 nm or less, is in a range of less than 2×10 13 counts/mm 3 . 2. The hot-rolled ferritic stainless steel sheet excellent in cold cracking properties according to claim 1 , which further contains one or more selected from a group consisting of, in terms of % by mass, 0.10% to 0.70% of Nb, and 0.05% to 0.30% of Ti in such a manner that the following relation (Expression 2) is fulfilled, Nb/93+Ti/48≧C/12+N/14  (Expression 2). 3. The hot-rolled ferritic stainless steel sheet excellent in cold cracking properties according to claim 1 , which further contains one or more selected from a group consisting of, in terms of % by mass: 0.1% to 1.0% of Mo; 0.1% to 1.0% of Ni; and 0.0001% to 0.0025% of B. 4. A method for producing a hot-rolled ferritic stainless steel sheet excellent in cold cracking properties, the method comprising: a process of subjecting a slab, which is obtained by casting a ferritic stainless steel having a steel composition according to claim 1 so as to form a hot-rolled steel sheet; a process of coiling the hot-rolled steel sheet into a coil shape under a condition where a coiling temperature T is set to be in a range of 300° C. to 500° C. after the hot rolling; and a process of immersing the hot-rolled steel sheet having a coil shape into a water bath for 1 hour or more, and taking out the hot-rolled steel sheet from the water bath after the immersing, wherein after the process of coiling the hot-rolled steel sheet into the coil shape, the hot-rolled steel sheet is immersed in the water bath within a time tc (h) that fulfills the following relation (Expression 3), tc =10^((452 −T )/76.7)  (Expression 3). 5. The hot-rolled ferritic stainless steel sheet excellent in cold cracking properties according to claim 2 , which further contains one or more selected from a group consisting of, in terms of % by mass: 0.1% to 1.0% of Mo; 0.1% to 1.0% of Ni; and 0.0001% to 0.0025% of B. 6. A method for producing a hot-rolled ferritic stainless steel sheet excellent in cold cracking properties, the method comprising: a process of subjecting a slab, which is obtained by casting a ferritic stainless steel having a steel composition according to claim 2 so as to form a hot-rolled steel sheet; a process of coiling the hot-rolled steel sheet into a coil shape under a condition where a coiling temperature T is set to be in a range of 300° C. to 500° C. after the hot rolling; and a process of immersing the hot-rolled steel sheet having a coil shape into a water bath for 1 hour or more, and taking out the hot-rolled steel sheet from the water bath after the immersing, wherein after the process of coiling the hot-rolled steel sheet into the coil shape, the hot-rolled steel sheet is immersed in the water bath within a time tc (h) that fulfills the following relation (Expression 3), tc =10^((452 −T )/76.7)  (Expression 3). 7. A method for producing a hot-rolled ferritic stainless steel sheet excellent in cold cracking properties, the method comprising: a process of subjecting a slab, which is obtained by casting a ferritic stainless steel having a steel composition according to claim 3 so as to form a hot-rolled steel sheet; a process of coiling the hot-rolled steel sheet into a coil shape under a condition where a coiling temperature T is set to be in a range of 300° C. to 500° C. after the hot rolling; and a process of immersing the hot-rolled steel sheet having a coil shape into a water bath for 1 hour or more, and taking out the hot-rolled steel sheet from the water bath after the immersing, wherein after the process of coiling the hot-rolled steel sheet into the coil shape, the hot-rolled steel sheet is immersed in the water bath within a time tc (h) that fulfills the following relation (Expression 3), tc =10^((452 −T )/76.7)  (Expression 3). 8. A method for producing a hot-rolled ferritic stainless steel sheet excellent in cold cracking properties, the method comprising: a process of subjecting a slab, which is obtained by casting a ferritic stainless steel having a steel composition according to claim 5 so as to form a hot-rolled steel sheet; a process of coiling the hot-rolled steel sheet into a coil shape under a condition where a coiling temperature T is set to be in a range of 300° C. to 500° C. after the hot rolling; and a process of immersing the hot-rolled steel sheet having a coil shape into a water bath for 1 hour or more, and taking out the hot-rolled steel sheet from the water bath after the immersing, wherein after the process of coiling the hot-rolled steel sheet into the coil shape, the hot-rolled steel sheet is immersed in the water bath within a time tc (h) that fulfills the following relation (Expression 3), tc =10^((452 −T )/76.7)  (Expression 3).