H33405/Typ/d1xl1 | Nozzles | Techni Shot | Hot runner nozzles | H | Product catalogue | HASCO Portal

This website uses cookies to improve and analyze the website and to improve the online content. In the
Data privacy statement you can find further information and options for deactivating these cookies. By clicking on the
OK button, you agree to the use of cookies.

OK
Social media
Shopping cart

Please log-in to be able to use this function.

No user account yet?Register now!

Product history

Please log-in to be able to use this function.

No user account yet?Register now!

text.skipToContent text.skipToNavigation

H33405/Typ/d1xl1

Techni Shot, Hotrunner nozzle

H33405/Typ/d1xl1

Prices and shopping cart visible after login.
Register

Selection of the products dimensions

P l4 l2 d7 d5 d3 d2 Typ d1 l1 Product CAD data
250 37 13 1,5 7 3,5 14 1 20 50 H33405/1/20x50
250 50 13 1,5 7 3,5 14 1 20 63 H33405/1/20x63
250 67 13 1,5 7 3,5 14 1 20 80 H33405/1/20x80
250 87 13 1,5 7 3,5 14 1 20 100 H33405/1/20x100
250 112 13 1,5 7 3,5 14 1 20 125 H33405/1/20x125
250 87 13 1,5 7 3,5 14 2 20 100 H33405/2/20x100
250 112 13 1,5 7 3,5 14 2 20 125 H33405/2/20x125

The Techni Shot nozzles are particularly suitable for demanding processing applications in the field of technical high performance polymers, and are preferably used in injection moulds in conjunction with hot runners H4000/..., H4010/.../S etc.

The Techni Shot-series is perfectly suitable for processing highly reinforced flame and retardant technical polymers.

Special Features

  • Cavity centre-to-centre distance min. 18mm
  • There is a choice of 6 nozzle sizes ranging from 20 to 60mm nozzle head diameters and melt channel diameters from 3,5 to 13mm
  • The nozzles are available in lengths of 50 to 300mm
  • All nozzles have a modular design, nozzle-tips, heaters and thermocouples can easily be replaced
  • High resistance against abrasive wear
  • Homogeneous temperature profile
  • High compressive strength, also at temperatures over 300°C
  • A large range of different tipgeometries and materials allows an optimal stall point quality and an ideal heat conduction into the gate