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The Average temperature, cold runner result is the average temperature of the temperature profile across the cold runner, calculated at the end of cooling time.
The Average temperature, part result is the average temperature of the temperature profile across the part thickness, calculated at the end of cooling time.
The Circuit coolant temperature result shows the temperature of the coolant inside the cooling circuit.
The Circuit flow rate result shows the flow rate of the coolant inside the cooling circuit.
The Circuit metal temperature is an elemental result averaged over the cycle, and shows the temperature of the metal cooling circuits.
The Circuit Reynolds number result shows the Reynolds number of the coolant in the cooling circuit.
The Cool analysis log contains the change in coolant temperature from coolant-in to coolant-out.
The Circuit heat flux result displays a measure of the rate heat is extracted by each cooling channel during the molding cycle.
The Circuit heat removal efficiency result provides a measure of the effectiveness of each cooling channel section in extracting heat from the mold during the molding cycle.
The Circuit pressure result is generated from a Cool analysis to show the distribution of pressure along a cooling circuit, averaged over the cycle.
Cooling circuit design is always a compromise between achieving reasonably uniform cooling and the shortest possible cycle time.
The Flow front temperature, mold-cavity result shows the temperature of the mold surface at the flow front as it flows through the mold, calculated using the finite element method (FEM), for both dual domain and 3D analyses. This result is generated from a cooling simulation using a Transient Cool analysis.
The Flux, part (top) result shows the average rate of heat flow across the top (blue) mold/part interface during the cycle.
The Flux, part (bottom) result shows the average rate of heat flow across the bottom (red) mold/part interface during the cycle.
The Flux, part result shows the average rate of heat flow across the mold/part interface during the cycle.
The Frozen layer percentage, part (bottom) result shows the thickness of the frozen layer on the bottom side of the element.
The Frozen layer percentage, part (top) result shows the thickness of the frozen layer on the top side of the element.
The Maximum temperature position, part result is generated from a Cool analysis, and shows the position of the Maximum temperature, part result in a plastic element relative to the bottom side (value = 0.0) of the element during the cycle.
The Mold-melt temperature difference (bottom), part result is generated at the end of a Cool analysis on a Midplane part.
The Mold-melt temperature difference (top), part result is generated at the end of a Cool analysis.
The Mold-melt temperature difference result is generated at the end of a Cool analysis for a 3D part.
The Mold parting surface result shows the placement of the parting plane as assigned automatically by the Moldflow analysis.
The Percentage frozen layer, cold runner result shows the thickness of the frozen layer on the cold runner surface at the end of the analysis.
The Percentage frozen layer result is generated from a Cool analysis using 3D analysis technology and shows the percentage of polymer frozen at the time specified.
The Percentage molten layer result is generated from a Cool analysis using 3D analysis technology and shows the percentage of polymer that has not frozen at the time specified.
The Rapid heating and cooling circuit density result shows the density of the various substances that are pumped through the rapid mold heating and cooling circuits, for both dual domain and 3D analyses. This result is generated from a rapid mold heating and cooling simulation using a Transient Cool analysis.
The Rapid heating and cooling circuit flow rate result shows the flowrate of the fluids in the rapid heating and cooling circuit during the analysis, for both dual domain and 3D analyses. This result is generated from a rapid mold heating and cooling simulation using a Transient Cool analysis.
The Rapid heating and cooling circuit pressure number result shows the pressure of the fluid in the heating and cooling circuit at any given time, for both dual domain and 3D analyses. This result is generated from a rapid mold heating and cooling simulation using a Transient Cool analysis.
The Rapid heating and cooling circuit Reynolds number result is calculated from the diameter of the cooling channels, the flow rate and the viscosity of the fluid in the channels, and shows the turbulence of the fluid flow in the heating and cooling circuit for both dual domain and 3D analyses. This result is generated from a rapid mold heating and cooling simulation using a Transient Cool analysis.
The Steam condensate mass result shows how much of the steam has condensed during the steam heating stage of a rapid mold heating and cooling simulation, for both dual domain and 3D analyses. This result is generated from a rapid mold heating and cooling simulation using a Transient Cool analysis.
The Steam Quality result shows the fraction of saturated steam that coexists with its condensate during a rapid mold heating and cooling simulation using a Transient Cool analysis. This result is available for both Dual Domain and 3D analyses.
The Temperature at surface, cold runner result shows the cycle-averaged temperature of the cold runner surface in contact with the mold.
The Temperature at surface, hot runner result shows the temperature of the mold wall in contact with the hot runner, averaged over the cycle.
The Temperature, circuit coolant (averaged) result shows the average temperature of the coolant inside the cooling circuit, calculated using the finite element method (FEM).
The Temperature, circuit coolant (transient from start-up) result shows how the temperature of the coolant in the cooling channels changes during each cycle, until the mold temperature stabilizes.
The Temperature, circuit coolant (transient) result shows how the temperature of the coolant in the cooling channels changes over the duration of the cycle.
The Temperature, core (averaged) result shows the temperature of the core across it's thickness, calculated at the end of the cooling time, using the Cool (FEM) solver.
The Temperature, core (transient from start-up) result shows the temperature of the core across it's thickness, at every time iteration and for all start-up cycles, until the mold temperature stabilizes.
The Temperature, core (transient) result shows the temperature of the core across it's thickness, at every time iteration throughout the injection molding cycle.
The Temperature difference, insert result shows the temperature difference between the insert and the mold on your model.
The Temperature difference, part result is the difference between the top and bottom temperatures.
The Temperature difference, parting plane result shows the difference of the averages in temperature between the top and bottom sides of the parting plane elements during the cycle.
The Temperature, insert (bottom) result shows the temperature of the mold surface in the area in contact with the insert in your cooling design.
The Temperature, internal mold result shows the cycle-average temperature of the mold for a 3D model.
The Temperature, parting plane (bottom) result shows the average temperature of the parting plane on the side of the parting plane element that is designated as bottom.
The Temperature, insert (top) result shows the temperature on the top surface of any inserts that have been modeled in your cooling design.
The Temperature, maximum, cold runner result shows the maximum temperature across the cold runner temperature profile, calculated at the end of cooling time.
The Temperature, maximum, part result displays the maximum temperature in the part, based on the cycle averaged mold surface temperatures (temperature, part (top), and temperature, part (bottom) results), calculated at the end of cooling time.
The Temperature, mold boundary result shows the outside surface temperature of the mold, averaged over the cycle.
The Temperature, mold (averaged) result shows the cycle averaged temperature of the entire mold, calculated using the finite element method (FEM). This result could be considered a sum of internal mold, the circuit metal and mold boundary results calculated using the boundary element method (BEM).
The Temperature, mold (transient from start-up) result shows the temperature of the mold as it changes during the injection cycle, from the initial start-up until the mold temperature stabilizes.
The Temperature, mold (transient) result shows the temperature of the mold as it changes over the duration of the cycle.
The Temperature, mold-cavity interface (averaged) result shows the cycle averaged temperature of the mold, at the mold-cavity interface, calculated using the finite element method (FEM).
The Temperature, mold-cavity interface (transient from start-up) result shows how the temperature at the interface between the mold and the cavity channels changes over the duration of the start-up cycles.
The Temperature, mold-cavity interface (transient) result shows how the temperature at the interface between the mold and the cavity changes over the duration of the cycle.
The Temperature, mold-circuit interface (averaged) result is an elemental result averaged over the cycle, and shows the temperature of the metal cooling circuits, calculated using the finite element method (FEM).
The Temperature, mold-circuit interface (transient from start-up) result shows how the temperature at the interface between the mold and the cooling channels changes during the start-up cycles, until the mold temperature stabilizes.
The Temperature, mold-circuit interface (transient) result shows how the temperature at the interface between the mold and the cooling channels changes over the duration of the cycle.
The Temperature, mold-circuit interface (transient from start-up) result shows how the temperature at the interface between the mold and the cooling channels changes during the start-up cycles, until the mold temperature stabilizes.
The Temperature, mold insert (averaged) result shows the temperature of the mold insert across it's thickness, calculated at the end of the cooling time, using the Cool (FEM) solver.
The Temperature, mold insert (transient from start-up) result shows the temperature of the mold insert across it's thickness, at every time iteration and for all start-up cycles, until the mold temperature stabilizes.
The Temperature, mold insert (transient) result shows the temperature of the mold insert across it's thickness, at every time iteration throughout the injection molding cycle.
The Temperature, mold-insert difference (averaged) result shows the temperature difference between the mold and the mold insert at their interface, calculated at the end of the cooling time using the Cool (FEM) solver.
The Temperature, mold-insert difference (transient from start-up) result shows the temperature difference between the mold and the mold insert at their interface, at every time iteration throughout the injection molding cycle.
The Temperature, mold-insert difference (transient) result shows the temperature difference between the mold and the mold insert at their interface, at every time iteration throughout the injection molding cycle.
The Temperature, mold-mold difference (averaged) result shows the temperature difference at the interface between the two mold plates at the parting plane, calculated at the end of the cooling time using the Cool (FEM) solver.
The Temperature, mold-mold difference (transient from start-up) result shows the temperature difference at the interface between the two mold plates at the parting plane, at every time iteration and for all start-up cycles, until the mold temperature stabilizes.
The Temperature, mold-mold difference (transient) result shows the temperature difference between the two mold plates at the parting plane, at every time iteration throughout the injection molding cycle.
The Temperature, mold (top) result shows the cycle averaged temperature of the mold side of the mold/part interface on the side of the part element that is specified as top.
The Temperature, mold (bottom) result shows the cycle averaged temperature on the mold side of the mold/part interface on the side of the part element that has been designated as the bottom.
The Temperature, mold result shows the cycle averaged temperature of the mold side of the mold/part interface of the part element, during the cycle.
The Temperature, mold (transient) result shows the temperature of the mold as it changes over the duration of the cycle.
The Temperature, parting plane (top) result shows the average temperature of the parting plane on the side of the parting plane element, that is designated as top.
The Temperature, part (averaged) result shows the average temperature of the part across the part thickness, calculated at the end of the cooling time.
The Temperature, part (transient from start-up) result shows the temperature of the part as it changes over an injection cycle, from the first start-up cycle until the mold temperature stabilizes.
The Temperature, part (transient) result shows the temperature of the part as it changes over the duration of the cycle.
The Temperature, part insert (averaged) result shows the temperature of the part insert across it's thickness, calculated at the end of the cooling time, using the Cool (FEM) solver.
The Temperature, part insert (transient from start-up) result shows the temperature of the part insert across it's thickness, at every time step through the cycle, for every cycle until the mold temperature stabilizes and reaches its optimum operating conditions.
The Temperature, part insert (transient) result shows the temperature of the part insert across its thickness, at every time step through the injection molding cycle.
The Temperature, part result shows the average temperature at the part boundary, which is at the part side of the part/mold interface, over the duration of the cycle.
The Temperature, part (bottom) result shows the average temperature of the part side of the part/mold interface, on the side of the part element that is designated as bottom.
The Temperature, part (top) result shows the average temperature of the part side of the part/mold interface, on the side of the part element that is designated as top.
The Temperature, part insert result shows the temperature change over time of a part insert that uses tetrahedral elements.
The Temperature profile, cold runner result shows the temperature profile from the center of the runner to the surface.
The Temperature profile, hot runner result shows the temperature profile from the center of the hot runner to the surface.
The Temperature profile, part result is generated at the end of a Cool analysis, and shows the temperature distribution from the top to the bottom of the part.
The Temperature, rapid heating and cooling thermocouples (transient) result displays the temperature reading at a user-specified thermocouple location over a stabilized production cycle.
The Temperature, rapid heating and cooling thermocouples (transient from start-up) result displays the temperature reading at a user-specified thermocouple location from start-up until stable processing conditions have been established.
The Temperature residual, exterior shell result shows the absolute error for the temperature solution, in relation to the mold temperature convergence tolerance value.
The Temperature residual, inserts result shows the absolute error for the temperature solution, in relation to the mold temperature convergence tolerance value.
The Temperature residual, part result shows the absolute error for the temperature solution, in relation to the mold temperature convergence tolerance value.
The Time to reach ejection temperature, cold runner result is generated from a Cool analysis, and shows the amount of time taken for all elements, including the cold runner, to freeze to ejection temperature.
The Time to reach ejection temperature, part result that is produced by a Cool analysis shows the time required to reach the ejection temperature, which is measured from the start of the cycle.