The 9 Best Micro Swiss Cooling Block
Nowadays, there are so many products of micro swiss cooling block in the market and you are wondering to choose a best one. You have searched for micro swiss cooling block in many merchants, compared about products prices & reviews before deciding to buy them.
You are in RIGHT PLACE.
Here are some of best sellings micro swiss cooling block which we would like to recommend with high customer review ratings to guide you on quality & popularity of each items.
Micro Swiss Cooling Block Upgrade for Wanhao i3
This is redesigned cooling block for Wanhao i3 with the following improvements: Slotted Clamping system, No set screw to ding and damage thermal tube, Significantly better heat transfer (this is a big one!!!), Easier disassemble and adjustments, Tight control on bore diameter, This cooling block will work with original PTFE lined hotend, and with our Micro Swiss MK10 Allmetal Hotend kit.
Micro Swiss All Metal Hotend with Slotted Cooling Block for Wanhao i3 w/.4mm Nozzle
- Fits: Wanhao i3, Monoprice Maker Select 3D Printer v2, Cocoon Create 3D Printer
- .4mm Nozzle Plated with HIGH LUBRICITY WEAR RESISTANT TwinClad XT Coating
- Kit Includes: Thermal Barrier Tube, Plated Nozzle and Slotted Cooling block
- Slotted Clamping system, No set screw to ding and damage thermal tube, Significantly better heat transfer
- Made in USA by Micro Swiss
This is Micro Swiss All Metal Hotend kit with redesigned cooling block for Wanhao i3 with the following improvements: Micro Swiss All Metal Hotend Kit Features: All metal hotend upgrade for MK10 style extruders. This upgrade includes a modified thermal barrier tube and modified nozzle with modified cooling block. Thermal barrier tube is made from 2 different materials. The lower thermal break is made from stainless steel, and the colder upper part is made from aluminum. Stainless steel was used for thermal break because it offers low thermal conductivity, and aluminum was used for the upper portion because it has a lot better thermal conductivity, to carry away any heat from the filament. All metal hotend will let you print at much higher temperature then possible with original PTFE lined one. Another benefit of an all metal hotend design is more consistent melt chamber control. During slow extrusion rate, in PTFE lined hotend, transition zone from solid to molten plastic tends to creep upward creating more stringy prints. With all metal design a transition zone is always constant, being located right at the heat break. With fast extrusion rate, PTFE tube doesn’t have enough thermal conductivity to properly melt all the plastic coming out. On MK10 extruders that limitation happens around 60 mm/s, depending on nozzle size. All metal hotend solves this problem, plastic is surrounded by thermally conductive nozzle throughout its length. STEP BY STEP INSTALLATION INSTRUCTION https://store.micro-swiss.com/pages/micro-swiss-all-metal-hotend
Micro Swiss All Metal Hotend with Slotted Cooling Block for Wanhao i3 w/.2mm Nozzle
- Fits: Wanhao i3, Monoprice Maker Select 3D Printer v2, Cocoon Create 3D Printer
- Brass Nozzle Plated with TwinClad XT coating HIGH LUBRICITY WEAR RESISTANT
- Kit Includes: Thermal Barrier Tube, .2mm Plated Nozzle and Slotted Cooling block
- Slotted Clamping system, No set screw to ding and damage thermal tube, Significantly better heat transfer
- Made in USA by Micro Swiss
This is Micro Swiss All Metal Hotend kit with redesigned cooling block for Wanhao i3 with the following improvements: Micro Swiss All Metal Hotend Kit Features: All metal hotend upgrade for MK10 style extruders. This upgrade includes a modified thermal barrier tube and modified nozzle with modified cooling block. Thermal barrier tube is made from 2 different materials. The lower thermal break is made from stainless steel, and the colder upper part is made from aluminum. Stainless steel was used for thermal break because it offers low thermal conductivity, and aluminum was used for the upper portion because it has a lot better thermal conductivity, to carry away any heat from the filament. All metal hotend will let you print at much higher temperature then possible with original PTFE lined one. Another benefit of an all metal hotend design is more consistent melt chamber control. During slow extrusion rate, in PTFE lined hotend, transition zone from solid to molten plastic tends to creep upward creating more stringy prints. With all metal design a transition zone is always constant, being located right at the heat break. With fast extrusion rate, PTFE tube doesn’t have enough thermal conductivity to properly melt all the plastic coming out. On MK10 extruders that limitation happens around 60 mm/s, depending on nozzle size. All metal hotend solves this problem, plastic is surrounded by thermally conductive nozzle throughout its length. STEP BY STEP INSTALLATION INSTRUCTION https://store.micro-swiss.com/pages/micro-swiss-all-metal-hotend
Micro Swiss All Metal Hotend with Slotted Cooling Block for Duplicator 6 .5mm
- All Metal Hotend kit for Wanhao Duplicator 6
- Slotted Clamping System
- Kit Includes: Thermal Barrier Tube, .5mm Plated Nozzle and Slotted Cooling block
- Nozzle is made from a 360 brass base material and plated with TwinClad XT coating. TwinClad XT is a nickel composite coating designed for very low friction.
- Made in USA by Micro Swiss
This is Micro Swiss All Metal Hotend kit for Wanhao Duplicator 6. This upgrade includes a modified thermal barrier tube and modified nozzle with modified cooling block. Thermal barrier tube is made from 2 different materials. The lower thermal break is made from stainless steel, and the colder upper part is made from aluminum. Stainless steel was used for thermal break because it offers low thermal conductivity, and aluminum was used for the upper portion because it has a lot better thermal conductivity, to carry away any heat from the filament. All metal hotend will let you print at much higher temperature then possible with original PTFE lined one. Another benefit of an all metal hotend design is more consistent melt chamber control. During slow extrusion rate, in PTFE lined hotend, transition zone from solid to molten plastic tends to creep upward creating more stringy prints. With all metal design a transition zone is always constant, being located right at the heat break. With fast extrusion rate, PTFE tube doesn’t have enough thermal conductivity to properly melt all the plastic coming out. On original extruders that limitation happens around 60 mm/s, depending on nozzle size. All metal hotend solves this problem, plastic is surrounded by thermally conductive nozzle throughout its length.
Micro Swiss All Metal Hotend with Slotted Cooling Block for Duplicator 6 .3mm
- All Metal Hotend kit for Wanhao Duplicator 6
- Slotted Clamping System
- Kit Includes: Thermal Barrier Tube, .3mm Plated Nozzle and Slotted Cooling block
- Nozzle is made from a 360 brass base material and plated with TwinClad XT coating. TwinClad XT is a nickel composite coating designed for very low friction.
- Made in USA by Micro Swiss
This is Micro Swiss All Metal Hotend kit for Wanhao Duplicator 6. This upgrade includes a modified thermal barrier tube and modified nozzle with modified cooling block. Thermal barrier tube is made from 2 different materials. The lower thermal break is made from stainless steel, and the colder upper part is made from aluminum. Stainless steel was used for thermal break because it offers low thermal conductivity, and aluminum was used for the upper portion because it has a lot better thermal conductivity, to carry away any heat from the filament. All metal hotend will let you print at much higher temperature then possible with original PTFE lined one. Another benefit of an all metal hotend design is more consistent melt chamber control. During slow extrusion rate, in PTFE lined hotend, transition zone from solid to molten plastic tends to creep upward creating more stringy prints. With all metal design a transition zone is always constant, being located right at the heat break. With fast extrusion rate, PTFE tube doesn’t have enough thermal conductivity to properly melt all the plastic coming out. On original extruders that limitation happens around 60 mm/s, depending on nozzle size. All metal hotend solves this problem, plastic is surrounded by thermally conductive nozzle throughout its length.
Micro Swiss All Metal Hotend with Slotted Cooling Block for Duplicator 6 .2mm
- All Metal Hotend kit for Wanhao Duplicator 6
- Slotted Clamping System
- Kit Includes: Thermal Barrier Tube, .2mm Plated Nozzle and Slotted Cooling block
- Nozzle is made from a 360 brass base material and plated with TwinClad XT coating. TwinClad XT is a nickel composite coating designed for very low friction.
- Made in USA by Micro Swiss
This is Micro Swiss All Metal Hotend kit for Wanhao Duplicator 6. This upgrade includes a modified thermal barrier tube and modified nozzle with modified cooling block. Thermal barrier tube is made from 2 different materials. The lower thermal break is made from stainless steel, and the colder upper part is made from aluminum. Stainless steel was used for thermal break because it offers low thermal conductivity, and aluminum was used for the upper portion because it has a lot better thermal conductivity, to carry away any heat from the filament. All metal hotend will let you print at much higher temperature then possible with original PTFE lined one. Another benefit of an all metal hotend design is more consistent melt chamber control. During slow extrusion rate, in PTFE lined hotend, transition zone from solid to molten plastic tends to creep upward creating more stringy prints. With all metal design a transition zone is always constant, being located right at the heat break. With fast extrusion rate, PTFE tube doesn’t have enough thermal conductivity to properly melt all the plastic coming out. On original extruders that limitation happens around 60 mm/s, depending on nozzle size. All metal hotend solves this problem, plastic is surrounded by thermally conductive nozzle throughout its length.
Micro Swiss All Metal Hotend with Slotted Cooling Block for Duplicator 6 .8mm
- All Metal Hotend kit for Wanhao Duplicator 6
- Slotted Clamping System
- Kit Includes: Thermal Barrier Tube, .8mm Plated Nozzle and Slotted Cooling block
- Nozzle is made from a 360 brass base material and plated with TwinClad XT coating. TwinClad XT is a nickel composite coating designed for very low friction.
- Made in USA by Micro Swiss
This is Micro Swiss All Metal Hotend kit for Wanhao Duplicator 6. This upgrade includes a modified thermal barrier tube and modified nozzle with modified cooling block. Thermal barrier tube is made from 2 different materials. The lower thermal break is made from stainless steel, and the colder upper part is made from aluminum. Stainless steel was used for thermal break because it offers low thermal conductivity, and aluminum was used for the upper portion because it has a lot better thermal conductivity, to carry away any heat from the filament. All metal hotend will let you print at much higher temperature then possible with original PTFE lined one. Another benefit of an all metal hotend design is more consistent melt chamber control. During slow extrusion rate, in PTFE lined hotend, transition zone from solid to molten plastic tends to creep upward creating more stringy prints. With all metal design a transition zone is always constant, being located right at the heat break. With fast extrusion rate, PTFE tube doesn’t have enough thermal conductivity to properly melt all the plastic coming out. On original extruders that limitation happens around 60 mm/s, depending on nozzle size. All metal hotend solves this problem, plastic is surrounded by thermally conductive nozzle throughout its length.
Micro Swiss All Metal Hotend Kit with Slotted Cooling Block for Zortrax M200, M300 .4mm
This is Micro Swiss All Metal Hotend kit for Zortrax M200. This upgrade includes a modified thermal barrier tube and modified nozzle with modified cooling block. Thermal barrier tube is made from 2 different materials. The lower thermal break is made from stainless steel, the colder upper part is made from aluminum. Stainless steel was used for thermal break because it offers low thermal conductivity, and aluminum was used for the upper portion (cold end) because it has much better thermal conductivity, to carry away any heat from the filament into the cooling block. All metal hotend will let you print at much higher temperature than possible with original PTFE lined one. Another benefit of an all metal hotend design is more consistent melt chamber control. During slow extrusion rate, in PTFE lined hotend, transition zone from solid to molten plastic tends to creep upward creating more stringy prints. With all metal design a transition zone is always constant, being located right at the heat break. With fast extrusion rate, PTFE tube doesn’t have enough thermal conductivity to properly melt all the plastic coming out. On original extruders that limitation happens around 60 mm/s, depending on nozzle size. All metal hotend solves this problem, plastic is surrounded by thermally conductive nozzle throughout its length.
Micro Swiss All Metal Hotend with Slotted Cooling Block for Wanhao i3 w/.5mm Nozzle
- Fits: Wanhao i3, Monoprice Maker Select 3D Printer v2, Cocoon Create 3D Printer
- Brass Nozzle Plated with TwinClad XT coating HIGH LUBRICITY WEAR RESISTANT
- Kit Includes: Thermal Barrier Tube, .5mm Plated Nozzle and Slotted Cooling block
- Slotted Clamping system, No set screw to ding and damage thermal tube, Significantly better heat transfer
- Made in USA by Micro Swiss
This is Micro Swiss All Metal Hotend kit with redesigned cooling block for Wanhao i3 with the following improvements: Micro Swiss All Metal Hotend Kit Features: All metal hotend upgrade for MK10 style extruders. This upgrade includes a modified thermal barrier tube and modified nozzle with modified cooling block. Thermal barrier tube is made from 2 different materials. The lower thermal break is made from stainless steel, and the colder upper part is made from aluminum. Stainless steel was used for thermal break because it offers low thermal conductivity, and aluminum was used for the upper portion because it has a lot better thermal conductivity, to carry away any heat from the filament. All metal hotend will let you print at much higher temperature then possible with original PTFE lined one. Another benefit of an all metal hotend design is more consistent melt chamber control. During slow extrusion rate, in PTFE lined hotend, transition zone from solid to molten plastic tends to creep upward creating more stringy prints. With all metal design a transition zone is always constant, being located right at the heat break. With fast extrusion rate, PTFE tube doesn’t have enough thermal conductivity to properly melt all the plastic coming out. On MK10 extruders that limitation happens around 60 mm/s, depending on nozzle size. All metal hotend solves this problem, plastic is surrounded by thermally conductive nozzle throughout its length. STEP BY STEP INSTALLATION INSTRUCTION https://store.micro-swiss.com/pages/micro-swiss-all-metal-hotend
Conclusion
By our suggestions above, we hope that you can found micro swiss cooling block for you.Please don’t forget to share your experience by comment in this post. Thank you!