Method for manufacturing aluminum alloy cladding material

The invention claimed is: 1. A method for manufacturing an aluminum alloy clad material, comprising layering plural aluminum alloy materials (including a pure aluminum material) with an intermediate layer therebetween, heating and bonding a layered body at a temperature, at which a ratio of a mass of a liquid phase generated from the intermediate layer is 5% or more and 29% or less, and rolling the body, wherein: a material of the intermediate layer is an aluminum alloy comprising 0.5 mass % or less (including 0 mass %) of Mg and 0.4-4.5 mass % of Si, and further comprising one or two or more selected from 0.05-0.5 mass % of Cu, 0.1-1.8 mass % of Mn, and 0.01-0.3 mass % of Zr, and bonding is carried out in a non-oxidizing atmosphere in a state in which a fluoride-based flux is coated between bonding members. 2. A method for manufacturing an aluminum alloy clad material, comprising layering plural aluminum alloy materials (including a pure aluminum material) with an intermediate layer therebetween, heating and bonding a layered body at a temperature, at which a ratio of a mass of a liquid phase generated from the intermediate layer is 5% or more and 29% or less, and rolling the body, wherein: a material of the intermediate layer is an aluminum alloy comprising 0.5 mass % or less (including 0 mass %) of Mg and 0.7-10 mass % of Cu, and further comprising one or more selected from 0.1-1.8 mass % of Mn and 0.01-0.3 mass % of Zr, and bonding is carried out in a non-oxidizing atmosphere in a state in which a fluoride-based flux is coated between bonding members. 3. A method for manufacturing an aluminum alloy clad material, comprising layering plural aluminum alloy materials (including a pure aluminum material) with an intermediate layer therebetween, heating and bonding a layered body at a temperature, at which a ratio of a mass of a liquid phase generated from the intermediate layer is 5% or more and 29% or less, and rolling the body, wherein: a material of the intermediate layer is an aluminum alloy comprising 0.5 mass % or less (including 0 mass %) of Mg, 0.4-10 mass % of Cu, and 0.3-4.5 mass % of Si, and further comprising one or more selected from 0.1-1.8 mass % of Mn and 0.01-0.3 mass % of Zr, and bonding is carried out in a non-oxidizing atmosphere in a state in which a fluoride-based flux is coated between bonding members. 4. A method for manufacturing an aluminum alloy clad material, comprising layering plural aluminum alloy materials (including a pure aluminum material) with an intermediate layer therebetween, heating and bonding a layered body at a temperature, at which a ratio of a mass of a liquid phase generated from the intermediate layer is 5% or more and 29% or less, and rolling the body, wherein: a material of the intermediate layer is an aluminum alloy comprising 0.5 mass % or less (including 0 mass %) of Mg, 0.3-4.5 mass % of Si, 0.5-20 mass % of Zn, and 0.3-10 mass % of Cu, and further comprising 0.1-1.8 mass % of Mn, and bonding is carried out in a non-oxidizing atmosphere in a state in which a fluoride-based flux is coated between bonding members. 5. A method for manufacturing an aluminum alloy clad material, comprising layering plural aluminum alloy materials (including a pure aluminum material) with an intermediate layer therebetween, heating and bonding a layered body at a temperature, at which a ratio of a mass of a liquid phase generated from the intermediate layer is 5% or more and 29% or less, and rolling the body, wherein: a material of the intermediate layer is an aluminum alloy comprising 0.3-5.0 mass % of Si, and further comprising one or more selected from 0.1-1.8 mass % of Mn and 0.01-0.3 mass % of Zr, and bonding is carried out in atmospheric air, in a non-oxidizing atmosphere, or in a vacuum. 6. A method for manufacturing an aluminum alloy clad material, comprising layering plural aluminum alloy materials (including a pure aluminum material) with an intermediate layer therebetween, heating and bonding a layered body at a temperature, at which a ratio of a mass of a liquid phase generated from the intermediate layer is 5% or more and 29% or less, and rolling the body, wherein: a material of the intermediate layer is an aluminum alloy comprising 0.1-10 mass % of Cu, and further comprising one or more selected from 0.1-1.8 mass % of Mn and 0.01-0.3 mass % of Zr, and bonding is carried out in atmospheric air, in a non-oxidizing atmosphere, or in a vacuum. 7. A method for manufacturing an aluminum alloy clad material, comprising layering plural aluminum alloy materials (including a pure aluminum material) with an intermediate layer therebetween, heating and bonding a layered body at a temperature, at which a ratio of a mass of a liquid phase generated from the intermediate layer is 5% or more and 29% or less, and rolling the body, wherein: a material of the intermediate layer is an aluminum alloy comprising 0.15-10 mass % of Cu and 0.1-4.5 mass % of Si, and further comprising one or more selected from 0.1-1.8 mass % of Mn and 0.01-0.3 mass % of Zr, and bonding is carried out in atmospheric air, in a non-oxidizing atmosphere, or in a vacuum. 8. A method for manufacturing an aluminum alloy clad material, comprising layering plural aluminum alloy materials (including a pure aluminum material) with an intermediate layer therebetween, heating and bonding a layered body at a temperature, at which a ratio of a mass of a liquid phase generated from the intermediate layer is 5% or more and 29% or less, and rolling the body, wherein: a material of the intermediate layer is an aluminum alloy comprising 0.1-4.5 mass % of Si, 0.1-20 mass % of Zn, and 0.1-10 mass % of Cu, and further comprising one or more selected from 0.1-1.8 mass % of Mn and 0.01-0.3 mass % of Zr, and bonding is carried out in atmospheric air, in a non-oxidizing atmosphere, or in a vacuum. 9. The method for manufacturing an aluminum alloy clad material according to claim 1 , wherein heat treatment in the bonding is carried out in an atmosphere in which a dew point is 0° C. or less.