Apparatus and method for applying a foaming reaction mixture onto a laminator

What is claimed is: 1. A process for making a laminated panel, comprising I. combining components comprising at least one polyisocyanate, at least one physical blowing agent, at least one polyol and at least one catalyst in a mixing zone of a mixhead to form a reactive foam formulation; II. continuously dispensing the reactive foam formulation onto a moving bottom facing layer to form a layer of reactive foam formulation on the bottom facing layer and III. curing the layer of reactive foam formulation on the bottom facing layer to form a laminated panel comprising the bottom facing layer and a polymer foam layer bonded to the bottom facing layer; and IV. observing the layer of reactive foam formulation and/or the polymer foam layer for the presence of surface bubbles on a top surface of the layer of the reactive form formulation and/or the polymer foam layer, and when surface bubbles are observed, increasing backpressure in the mixing zone of the mixhead to reduce or eliminate the further formation of surface bubbles. 2. The process of claim 1 wherein at least one the physical blowing agent is present in an amount of at least 12 parts by weight per 100 parts by weight of the at least one polyol. 3. The process of claim 2 wherein the at least one physical blowing agent is a C 4 -C 6 hydrocarbon. 4. The process of claim 2 wherein a top facing layer is applied to the layer of reactive foam formulation before step III, and in step III the layer of reactive foam formulation becomes bonded to the top facing layer. 5. A process for making a laminated panel, comprising I. continuously dispensing a reactive foam formulation onto a moving bottom facing layer through an apparatus for forming and dispensing a fluid mixture by introducing components comprising at least one polyisocyanate, at least one physical blowing agent, at least one polyol and at least one catalyst into the mixing zone of the mixhead through the multiple inlets of the mixhead, mixing the components in the mixing zone to form the reactive foam formulation and transferring the reactive foam formulation out of the mixhead outlet and then through the distribution system and out of the outlets of the distribution system onto the moving bottom facing layer to form a layer of reactive foam formulation on the bottom facing layer and II. curing the layer of reactive foam formulation on the bottom facing layer to form a laminated panel comprising the bottom facing layer and a polymer foam layer bonded to the bottom facing layer; and III. observing the layer of reactive foam formulation and/or the polymer foam layer for the presence of surface bubbles on a top surface of the layer of the reactive foam formulation and/or the polymer foam layer, and when surface bubbles are observed, increasing backpressure in the mixing zone of the mixhead through manipulation of the adjustable flow restriction means to reduce or eliminate the formation of surface bubbles; wherein the apparatus comprises: a) a mixhead that includes: i) multiple inlets for the introduction of starting materials for mixing in the mixhead, the multiple inlets being in fluid communication with ii) a mixing zone in which starting materials introduced into the mixhead through the multiple inlets are combined to form a fluid mixture, the mixing zone being in fluid communication with iii) a mixhead outlet through which a fluid mixture formed in the mixing zone is removed from the mixhead, the mixhead outlet being in fluid communication with b) a distribution system for distributing and dispensing a fluid mixture exiting the mixhead outlet, said distribution system including i) a conduit system including at least one branch point at which the conduit system is divided to define multiple flowpaths and ii) outlets at termini of the multiple flowpaths of the conduit system for dispensing the fluid mixture from the distribution system; c) adjustable flow restriction means positioned downstream of the mixing zone of the mixhead and at or upstream of the at least one branch point of the conduit system, wherein the adjustable flow restriction means is operable to increase and decrease backpressure in the mixing zone of the mixhead. 6. The process of claim 5 wherein the at least one physical blowing agent is present in an amount of at least 12 parts by weight per 100 parts by weight of the at least one polyol. 7. The process of claim 6 wherein the at least one physical blowing agent is a C 4 -C 6 hydrocarbon. 8. The process of claim 6 wherein a top facing layer is applied to the layer of reactive foam formulation before step II, and in step II the layer of reactive foam formulation becomes bonded to the top facing layer.