{{Short description|Fused-filament 3D printer component}} [[File:Extruder_lemio-en.svg|thumb|right|The hotend is the part of the extruder near the nozzle, here it is the lower part of a direct-drive extruder ]]
A '''hotend''' is a component of fused filament deposition 3D printers. Its purpose is to heat up and melt filament material for depositing into the intended shape.
The hotend is usually made of a bulk heat-conductive material with an internal resistive heater, coupled with a thermistor or thermocouple for precise temperature control. In common desktop 3D printer designs, the heater is located near the nozzle, and a heatsink is attached upstream (on the colder side).<ref name="Xometry 2023 z819">{{cite web | title=Hotend: Definition, Types, How It Works, Advantages, and Disadvantages | website=Xometry | date=2023-04-28 | url=https://www.xometry.com/resources/3d-printing/hotend/ | access-date=2024-04-21}}</ref> A heatbreak component made of dissimilar metals (bimetal) can be used to limit heat transfer to the cold filament above, increasing the controllability of the melted filament.<ref name="CNC Kitchen 2021 w915">{{cite web | title=Testing BiMetallic Heat Breaks | website=CNC Kitchen | date=2021-02-20 | url=https://www.cnckitchen.com/blog/testing-bimetallic-heat-breaks | access-date=2024-04-21}}</ref><ref name="All You Need to Know About 3D Printer Heat Break z649">{{cite web | title=All You Need to Know About 3D Printer Heat Break | website=All You Need to Know About 3D Printer Heat Break | url=https://www.crealitycloud.com/blog/tutorials/all-you-need-to-know-about-3d-printer-heat-break | access-date=2024-04-21}}</ref>
==Nozzle== The nozzle is an interchangeable tip attached to the hotend with a small diameter hole through which the melted filament is extruded. In desktop fused filament deposition printers, different sized nozzle holes can be used to balance between printing speed and precision. Common large sized ones (1.0mm) extrude more material per travel length whereas smaller sized nozzles (0.2mm) result in higher quality.<ref name="0.4mm Vs 0.6mm Nozzle for 3D Printing – A Closer Look at the Tradeoffs o706">{{cite web | title=0.4mm Vs 0.6mm Nozzle for 3D Printing – A Closer Look at the Tradeoffs | website=0.4mm Vs 0.6mm Nozzle for 3D Printing – A Closer Look at the Tradeoffs | url=https://www.crealitycloud.com/blog/tutorials/nozzle-for-3d-printing | access-date=2024-04-21}}</ref>
In consumer desktop printers, the nozzle is often made of brass or stainless steel. Desired characteristics include abrasion resistance, as the nozzle frequently slides across the printed object, and thermal conductivity. To improve thermal conductivity, nozzles can be perforated with multiple holes on the intake side, forming an internal structure with more contact area between the heated nozzle body and the filament.<ref name="CNC Kitchen 2021 n343">{{cite web | title=Bondtech CHT High Flow Nozzle Reviewed | website=CNC Kitchen | date=2021-10-23 | url=https://www.cnckitchen.com/blog/bondtech-cht-high-flow-nozzle-reviewed | access-date=2024-04-21}}</ref> This results in a higher maximum volumetric flow, which can improve printing speed.
==See also== * 3D printer cabinet, encapsulation that can provide better control of the environment around a 3D printer * 3D printer extruder, feeding mechanism for filament in certain types of 3D printers * PTC heating element, type of heating element with self-regulating properties to prevent thermal runaway
==References== {{reflist}}
Category:Fused filament fabrication