Glossary
A lab-style glossary for 3D printing — procedure terminology, materials science, calibration concepts, and quality-control vocabulary.
Canonical version maintained at fdmdesk.com.
A
- ABS materials #
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Acrylonitrile butadiene styrene — durable, ~100°C heat-resistant. Requires enclosure for warping control and ventilation for styrene fumes.
See also: ASA, Enclosed Printer
- Acceleration slicer-settings #
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Rate of velocity change in print and travel moves, mm/s². Higher acceleration enables faster prints but stresses the mechanical system.
See also: Jerk, Input Shaping
- All-Metal Hotend hardware #
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Hotend without PTFE lining in the melt zone. Required for high-temperature filaments (>240°C sustained).
See also: Hotend, Polycarbonate, PA / Nylon
B
- Bed Leveling calibration #
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Process of ensuring the bed surface is parallel to the nozzle's XY motion plane. Automatic probes use inductive, capacitive, or strain-gauge sensors.
See also: Z-Offset, First Layer
- Bed Slinger hardware #
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Printer where the bed moves on the Y axis. Lower cost but speed-limited by accelerating the bed and print mass.
See also: CoreXY
- Bowden Tube hardware #
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PTFE tube routing filament from a remote extruder to the hotend. Reduces print head mass; complicates retraction tuning and flexible material handling.
See also: Direct Drive
- Brim slicer-settings #
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Single-layer skirt printed in contact with the model outline to increase first-layer surface area. Removed after print.
C
- Calibration Tower calibration #
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Sliced print where a single parameter (temperature, retraction, pressure advance) varies across height sections. The cleanest section identifies the correct value.
See also: Temperature Tower, Retraction Tower, Pressure Advance
- CoreXY hardware #
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Kinematic system where two motors drive X and Y axes via crossed belts. Bed moves only in Z. Enables high-speed, high-acceleration prints with a stationary heavy bed.
See also: Bed Slinger
D
- Direct Drive hardware #
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Extruder mounted on the print head, gripping filament directly above the hotend. Best for flexibles and high-flow prints; adds moving mass.
See also: Bowden Tube, TPU
E
- E-Steps calibration #
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Number of stepper motor steps required to extrude 1mm of filament. Calibrated by marking filament, commanding a known extrusion, and measuring actual length.
See also: Flow Ratio
- Elephant's Foot defects #
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Flared bulging in the first few layers from over-squish or excessive bed heat. Compensated for via slicer elephant-foot compensation setting.
See also: First Layer
- Enclosed Printer hardware #
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Printer with a sealed chamber. Retains heat for warping control and enables higher chamber temperatures for engineering plastics.
See also: ABS, Polycarbonate, Warping
- Extrusion Multiplier calibration #
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Cura / SuperSlicer name for flow ratio.
See also: Flow Ratio
F
- FDM processes #
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Fused Deposition Modeling — heated thermoplastic extruded layer by layer along a path. Also called FFF.
See also: FFF, Resin Printing
- FFF processes #
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Fused Filament Fabrication — generic term for the FDM process to avoid Stratasys's trademark.
See also: FDM
- Filament Dryer tools #
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Heated enclosure for drying hygroscopic filament. Sunlu S2/S4, Polymaker PolyDryer, and food dehydrators are common.
See also: Wet Filament
- First Layer calibration #
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The base layer that anchors the print. Usually printed slower with extra squish to maximize adhesion.
See also: Z-Offset, Bed Leveling
- Flow Ratio calibration #
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Multiplier applied to the slicer's commanded extrusion volume. Calibrated by printing a single-wall vase and measuring wall thickness against expected line width.
See also: E-Steps, Extrusion Multiplier
G
H
- Heat Creep defects #
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Filament softening above the intended melt zone. Causes extruder skipping after long retractions or pauses. Mitigated by good heatsink fans and correct heatbreak geometry.
- Heatbreak hardware #
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Thin-walled metal tube isolating the heater block from the upstream heatsink. Geometry determines heat-creep resistance.
See also: Heat Creep, Hotend
- Hotend hardware #
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Heated nozzle assembly: heater block, cartridge, thermistor, heatbreak, nozzle.
See also: All-Metal Hotend, Heatbreak
I
- Infill Density slicer-settings #
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Percentage of solid material in the print interior. 15–20% cosmetic; 40–60%+ structural.
See also: Infill Pattern, Wall Line Count
- Infill Pattern slicer-settings #
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Geometric pattern filling the interior. Grid, gyroid, cubic, lightning, honeycomb. Choice affects strength and time more than density alone.
See also: Infill Density
- Input Shaping calibration #
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Firmware feature that pre-cancels mechanical resonance by injecting compensating accelerations. Required to print fast without ghosting.
See also: Ringing, Vibration Compensation
J
- Jerk slicer-settings #
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Marlin term for instantaneous velocity change at corners. Higher jerk reduces print time but increases ringing and mechanical stress.
See also: Acceleration
K
- Klipper software #
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Open-source firmware that runs motion planning on a separate computer. Enables high-performance features on modest mainboards.
See also: Mainsail, Input Shaping
L
- Layer Height slicer-settings #
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Vertical thickness per layer in mm. Common FDM range 0.08–0.32mm. Smaller heights reveal more detail at proportionally longer print time.
See also: Line Width
- Layer Shift defects #
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Visible horizontal offset between layers caused by missed steps — usually a stepper driver thermal trip, loose belt, or excessive acceleration.
See also: Acceleration, belt-tension
- Line Width slicer-settings #
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Horizontal extrusion width. Typically 1.0–1.5× nozzle diameter. Wider lines print faster and stronger; narrower lines reveal more surface detail.
See also: Nozzle Diameter, Wall Line Count
- Linear Advance calibration #
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Marlin's pressure advance equivalent. Tuned with a calibration print where K-value sweeps across stripes.
See also: Pressure Advance
M
- Mainsail software #
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Klipper web UI — print management, temperature graphs, macros.
- Marlin software #
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Most common stock printer firmware. Compile-time configuration; simpler to maintain than Klipper but less flexible.
See also: Klipper
- Max Volumetric Speed slicer-settings #
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Slicer-side cap on instantaneous flow. The single most useful tuning parameter for high-speed prints.
See also: Volumetric Flow
- MMU hardware #
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Prusa's Multi-Material Upgrade. Latest revision is MMU3 for the MK4 / XL.
See also: AMS
- MSLA processes #
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Masked stereolithography — LCD-masked UV light cures whole layers at once. Dominant consumer resin technology.
See also: Resin Printing
N
- Nozzle Diameter hardware #
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Nozzle orifice diameter. 0.4mm is standard; 0.6–0.8mm for speed and strength; 0.2–0.25mm for fine detail.
See also: Layer Height, Line Width
P
- PA / Nylon materials #
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Polyamide filament — high strength and abrasion resistance. Extremely hygroscopic; must be dried before and during printing. Print 240–270°C.
See also: Wet Filament, Filament Dryer
- Part Cooling hardware #
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Fans blowing ambient air on freshly extruded plastic. Enables clean overhangs for PLA/PETG; reduced for ABS/ASA.
See also: overhang, Warping
- PEI Sheet hardware #
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Spring steel build plate coated in polyetherimide. Smooth or textured surface. Standard on most modern printers.
See also: Build Surface
- PETG materials #
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Glycol-modified PET — tougher than PLA with higher impact and heat resistance (~70°C). Print 220–245°C. Mildly hygroscopic.
See also: PLA, Wet Filament
- Pillowing defects #
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Bulging or holes in the top surface from inadequate top layers or poor cooling. Add top layers and verify fan operation.
See also: Top Layer, Part Cooling
- PLA materials #
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Polylactic acid — easy-printing biodegradable filament. Print temperature 190–220°C. Glass transition ~55°C limits use in hot environments.
- Polycarbonate materials #
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PC — very high strength and heat resistance (~120°C+). Requires high nozzle temperature (270–310°C), enclosed chamber, and hardened steel hotend.
See also: Enclosed Printer, All-Metal Hotend
- Pressure Advance calibration #
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Klipper feature that adjusts extruder pressure ahead of speed changes to compensate for filament compressibility. Eliminates bulging at corners.
See also: Linear Advance, Calibration Tower
R
- Raft slicer-settings #
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Sacrificial thick base layer beneath the model. Used for adhesion to difficult surfaces.
See also: Brim
- Resin Printing processes #
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Photopolymer 3D printing — SLA or MSLA. Cures liquid resin layer by layer with UV light. Higher detail than FDM at the cost of post-process workflow constraints.
- Retraction slicer-settings #
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Pulling filament back into the extruder during travel moves to relieve nozzle pressure. Distance and speed are the two tunable parameters.
See also: Stringing
- Retraction Tower calibration #
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Calibration print with retraction distance increasing across sections — used to dial in stringing-free retraction without overshooting.
See also: Calibration Tower, Retraction, Stringing
- Ringing defects #
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Echo patterns on print walls after corners — mechanical resonance. Reduced by lowering acceleration or enabling input shaping.
See also: Input Shaping
S
- Slicer software #
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Software that converts a 3D model to printer G-code: path planning, supports, infill, machine-specific dialect.
See also: G-code
- Soluble Support materials #
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PVA or HIPS support that dissolves in solvent. Requires multi-material setup.
See also: Support Material, AMS, MMU
- Stringing defects #
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Thin filament strands between separated print features. Caused by inadequate retraction, too-high temperature, or wet filament.
See also: Retraction, Wet Filament
- Support Material slicer-settings #
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Removable scaffolding for overhangs above the printer's max unsupported angle (~45°). Modern slicers offer tree, normal, and organic patterns.
See also: overhang, Soluble Support
T
- Temperature Tower calibration #
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Tower-shaped calibration print with temperature decreasing in 5°C steps from base to top. Used to find optimal print temperature for a specific filament spool.
See also: Calibration Tower
- Top Layer slicer-settings #
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Solid horizontal layer at the print's top. Insufficient count causes pillowing.
- TPU materials #
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Thermoplastic polyurethane — flexible. Shore A 85–98 common. Requires slow speeds (15–30mm/s) and direct-drive extrusion for reliable flow.
See also: Direct Drive
V
- Vibration Compensation calibration #
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Bambu Lab's name for input shaping.
See also: Input Shaping
- Volumetric Flow calibration #
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Filament throughput in mm³/s. The hotend's max sustainable flow caps practical print speed. Standard hotends 11–15 mm³/s; high-flow 25–40 mm³/s.
See also: Max Volumetric Speed, Hotend
W
- Wall Line Count slicer-settings #
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Number of perimeter passes before infill. 2 for cosmetic; 4–6 for structural.
See also: Line Width
- Warping defects #
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Lifting or curling of cooling parts. Worst with ABS / ASA. Mitigated by enclosed chamber, heated bed, brim, and reduced part cooling.
See also: Enclosed Printer, Brim
- Wet Filament materials #
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Filament that has absorbed atmospheric moisture. Symptoms: popping at the nozzle, weak interlayer bonding, stringing. Dried at 50–80°C depending on material.
See also: Filament Dryer, Stringing
Z
- Z-Offset calibration #
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Vertical distance between nozzle tip and bed at z=0. Negative values bring the nozzle closer. Critical for first-layer adhesion.
See also: First Layer, Bed Leveling