Once encapsulated in the plastic, however, the compound pellets can easily be fed into an extruder or molding machine. A filled compound can differ from an unfilled polymer in the way it melts and flows in an extruder or injection molding machine— but it has better heat transfer and may require less energy for melting and cooling.

Once encapsulated in the plastic, however, the compound pellets can easily be fed into an extruder or molding machine. A filled compound can differ from an unfilled polymer in the way it melts and flows in an extruder or injection molding machine— but it has better heat transfer and may require less energy for melting and cooling.

Once encapsulated in the plastic, however, the compound pellets can easily be fed into an extruder or molding machine. A filled compound can differ from an unfilled polymer in the way it melts and flows in an extruder or injection molding machine— but it has better heat transfer and may require less energy for melting and cooling.

Once encapsulated in the plastic, however, the compound pellets can easily be fed into an extruder or molding machine. A filled compound can differ from an unfilled polymer in the way it melts and flows in an extruder or injection molding machine— but it has better heat transfer and may require less energy for melting and cooling.

Once encapsulated in the plastic, however, the compound pellets can easily be fed into an extruder or molding machine. A filled compound can differ from an unfilled polymer in the way it melts and flows in an extruder or injection molding machine— but it has better heat transfer and may require less energy for melting and cooling.

Once encapsulated in the plastic, however, the compound pellets can easily be fed into an extruder or molding machine. A filled compound can differ from an unfilled polymer in the way it melts and flows in an extruder or injection molding machine— but it has better heat transfer and may require less energy for melting and cooling.

Once encapsulated in the plastic, however, the compound pellets can easily be fed into an extruder or molding machine. A filled compound can differ from an unfilled polymer in the way it melts and flows in an extruder or injection molding machine— but it has better heat transfer and may require less energy for melting and cooling.

Once encapsulated in the plastic, however, the compound pellets can easily be fed into an extruder or molding machine. A filled compound can differ from an unfilled polymer in the way it melts and flows in an extruder or injection molding machine— but it has better heat transfer and may require less energy for melting and cooling.

Every molding machine is different in actual performance.

The two-component injection molding, also referred to as two-shot molding, consists of a machine with two independent injection units, each of which shoots a different material in series.