Source Files

Description

Printing Details

This 3D model of the TRON Light Cycle consists of files in StereoLithography (.Stl) format that is optimized for 3D printing.

Before printing the files, we strongly recommend reading the PRINTING DETAILS section.

WHAT WILL YOU GET AFTER PURCHASE?

2 versions of TRON Light Cycle STL files for FFF/FDM and DLP/SLA - files for all versions are available for download after the purchase;
STL files of high-poly TRON Light Cycle Model for 3D printing consist of 109 files;
Sizes for:
FFF/FDM: 166 mm tall, 382 mm wide, 186 mm deep;
DLP/SLA : 83 mm tall, 191 mm wide, 93 mm deep;
Assembly Manual for FFF/FDM/ DLP/SLA 1.0 versions in PDF and video formats;
Detailed settings that we provide as a recommendation for Cura, Simplify3D, Slic3r and PrusaSlicer for the best print;
Full technical support from the Gambody Support Team.

Detailed information about this 3D printing model is available in the DESCRIPTION section.


	File Name	File Size	Time / Filament	Object Size (x/y/z mm)
	_01_lightCyclebody_a_FDM (repaired).stl	24.47 MiB	33 h 53 min 21 m	142 x 119 x 47	Download
	_02_lightCyclebody_b_FDM (repaired).stl	25.26 MiB	34 h 6 min 21 m	142 x 119 x 47	Download
	_03_lightCyclebody_c_FDM (repaired).stl	16.11 MiB	14 h 12 min 8 m	103 x 102 x 30	Download
	_04_lightCyclebody_d_FDM (repaired).stl	16.11 MiB	14 h 18 min 8 m	103 x 102 x 30	Download
	_07_wheel_a_X2_FDM (repai red).stl	56.89 MiB	14 h 10 min 7 m	112 x 112 x 39	Download
	_08_bearing_a_X2_FDM (rep aired).stl	8.04 MiB	10 h 49 min 6 m	83 x 83 x 33	Download
	_09_bearing_b_X12_FDM (re paired).stl	0.66 MiB	19 min <1 m	10 x 10 x 20	Download
	_10_lightCycleWing_a_L_FD M (repaired).stl	3.07 MiB	2 h 53 min 2 m	42 x 44 x 76	Download
	_11_lightCycleWing_b_R_FD M (repaired).stl	3.07 MiB	2 h 53 min 2 m	37 x 52 x 76	Download
	_12_lightCycleWing_c_FDM (repaired).stl	5.44 MiB	1 h 57 min 1 m	81 x 36 x 49	Download
	_13_bodyPart_a_FDM (repai red).stl	3.83 MiB	1 h 55 min 1 m	34 x 45 x 22	Download
	_14_bodyPart_b_FDM (repai red).stl	5.21 MiB	1 h 1 min <1 m	43 x 35 x 16	Download
	_15_bodyPart_c_FDM (repai red).stl	5.18 MiB	1 h 8 min <1 m	42 x 32 x 19	Download
	_16_bodyPart_d_FDM (repai red).stl	5.39 MiB	1 h 4 min <1 m	42 x 18 x 19	Download
	_17_bodyPart_e_FDM (repai red).stl	6.12 MiB	37 min <1 m	11 x 19 x 39	Download
	_18_grill_a_L_FDM (repair ed).stl	1.19 MiB	19 min <1 m	31 x 17 x 5	Download
	_19_grill_b_R_FDM (repair ed).stl	1.20 MiB	19 min <1 m	34 x 15 x 5	Download
	_20_handle_a_L_FDM (repai red).stl	6.43 MiB	1 h 56 min 1 m	27 x 30 x 53	Download
	_21_handle_b_R_FDM (repai red).stl	6.43 MiB	1 h 57 min 1 m	31 x 27 x 53	Download
	_22_pedal_a_L_FDM (repair ed).stl	12.20 MiB	1 h 9 min 1 m	21 x 27 x 37	Download
	_23_pedal_b_R_FDM (repair ed).stl	12.21 MiB	1 h 12 min 1 m	21 x 27 x 37	Download
	_24_engineCover_a_L_FDM ( repaired).stl	7.81 MiB	1 h 2 min 1 m	60 x 30 x 7	Download
	_25_engineCover_b_R_FDM ( repaired).stl	7.81 MiB	1 h 3 min 1 m	60 x 29 x 7	Download
	_26_engineCover_c_L_V2_FD M (repaired).stl	4.66 MiB	16 min <1 m	60 x 30 x 4	Download
	_27_engineCover_d_R_V2_FD M (repaired).stl	4.66 MiB	17 min <1 m	60 x 29 x 5	Download
	_28_engine_a_X2_FDM (repa ired).stl	27.20 MiB	4 h 16 min 2 m	24 x 24 x 70	Download
	_29_lightSheet_a_X4_FDM ( repaired).stl	5.71 MiB	1 h 24 min 1 m	88 x 88 x 8	Download
	_30_lightSheet_b_L_FDM (r epaired).stl	0.97 MiB	2 h 2 m	93 x 76 x 33	Download
	_31_lightSheet_c_R_FDM (r epaired).stl	0.97 MiB	2 h 2 min 2 m	119 x 47 x 33	Download
	_32_lightSheet_d_L_FDM (r epaired).stl	0.11 MiB	19 min <1 m	15 x 48 x 3	Download
	_33_lightSheet_e_R_FDM (r epaired).stl	0.11 MiB	19 min <1 m	15 x 48 x 3	Download
	_34_lightSheet_f_X4_FDM ( repaired).stl	0.19 MiB	1 min <1 m	4 x 4 x 3	Download
	_35_lightSheet_g_FDM (rep aired).stl	2.93 MiB	33 min <1 m	33 x 108 x 9	Download
	_36_lightSheet_h_L_FDM (r epaired).stl	2.25 MiB	37 min <1 m	37 x 20 x 38	Download
	_37_lightSheet_i_R_FDM (r epaired).stl	2.25 MiB	37 min <1 m	35 x 25 x 38	Download
	_38_lightSheet_j_L_FDM (r epaired).stl	0.79 MiB	4 min <1 m	5 x 8 x 14	Download
	_39_lightSheet_k_R_FDM (r epaired).stl	0.79 MiB	4 min <1 m	8 x 4 x 14	Download
	_40_lightSheet_l_L_FDM (r epaired).stl	0.79 MiB	4 min <1 m	5 x 7 x 17	Download
	_41_lightSheet_m_R_FDM (r epaired).stl	0.79 MiB	4 min <1 m	8 x 4 x 17	Download
	_42_lightSheet_n_L_FDM (r epaired).stl	0.84 MiB	3 min <1 m	4 x 4 x 18	Download
	_43_lightSheet_o_R_FDM (r epaired).stl	0.84 MiB	3 min <1 m	4 x 4 x 18	Download
	_44_lightSheet_p_L_FDM (r epaired).stl	0.61 MiB	1 min <1 m	3 x 3 x 5	Download
	_45_lightSheet_q_R_FDM (r epaired).stl	0.61 MiB	1 min <1 m	3 x 3 x 5	Download
	_46_lightCycleDashboard_a _FDM (repaired).stl	0.50 MiB	5 min <1 m	25 x 20 x 2	Download
	_47_helmer_a_FDM (repaire d).stl	8.05 MiB	3 h 32 min 3 m	51 x 39 x 36	Download
	_48_helmer_b_FDM (repaire d).stl	2.62 MiB	27 min <1 m	33 x 39 x 22	Download
	_49_standPart_a_FDM (repa ired).stl	0.84 MiB	44 h 40 min 26 m	180 x 180 x 41	Download
	_50_standPart_b_FDM (repa ired).stl	0.37 MiB	44 h 50 min 26 m	179 x 180 x 41	Download
	_51_standPart_c_FDM (repa ired).stl	3.81 MiB	4 h 46 min 3 m	120 x 47 x 9	Download
	_52_pin_V1_X12_FDM (repai red).stl	0.33 MiB	4 min <1 m	33 x 3 x 3	Download
	_53_pin_V2_X15_FDM (repai red).stl	0.01 MiB	8 min <1 m	10 x 20 x 4	Download
	_54_pin_V3_X3_FDM (repair ed).stl	0.01 MiB	1 h 24 min 1 m	60 x 30 x 8	Download
	Keychain (repaired).stl	0.35 MiB	23 min <1 m	30 x 30 x 2	Download
	Tag (repaired).stl	1.70 MiB	1 h 18 min 1 m	150 x 18 x 5	Download
	_05_lightCyclebody_e_FDM (repaired).stl	44.27 MiB	36 h 20 min 23 m	170 x 130 x 49	Download
	_06_lightCyclebody_f_FDM (repaired).stl	44.27 MiB	36 h 22 min 23 m	170 x 130 x 49	Download
...

ABOUT THIS 3D MODEL

The 5th generation light cycle from "Tron: Legacy" represents a significant evolution from the original models introduced in the 1982 film "Tron." Originally conceived by designer Syd Mead, these iconic vehicles symbolize the blend of technological innovation and visual spectacle. This latest model, characterized by its streamlined design and enhanced functionality, plays a pivotal role in the film’s high-speed action sequences, showcasing a blend of nostalgia and modern digital artistry.

Our contributing 3D artist has skillfully captured the essence of the TRON Light Cycle 3D printing model with remarkable precision. The model features smoothly rotating wheels on bearings, extendable side wings, and two options for engine side covers. Additionally, the rear cover can be opened to reveal intricate details, and there is a removable battery access cover. The backrest is designed to be slightly raised, and the engines themselves are capable of rotation, bringing this iconic piece of cinematic technology to life with dynamic functionality.

ADAPTATION FOR 3D PRINTING

The TRON Light Cycle model for 3D printing is an active assembly model and its moderation and adaptation for different types of 3D printers took the Gambody team 107 hours in total.

For you to receive the cleanest 3D printing result possible, minimize the amount of filament needed for generated support, and make use of the active elements designed by Gambody Engineers, the car was divided into convenient assembly parts.

All assembly parts in the FFF/FDM 1.0 version are provided in STL files in recommended positions that were worked out in order to ensure the smoothness of the details’ surfaces after printing and that the 3D printing beginners won’t face difficulties when placing the parts on a build plate. When downloading any model’s file you will also receive “Assembly Manual” for FFF/FDM/DLP/SLA 1.0 versions in PDF and video formats. We highly recommend that you get acquainted with the “Assembly Video” and “Assembly Manual” before getting down to the TRON Light Cycle 3D printing model.

The model is saved in STL files, a format supported by most 3D printers. All STL files for 3D printing have been checked in Netfabb and no errors were shown.

The model’s scale was calculated from the length of the vehicle. The 3D printing model’s chosen scales are 1:8 for the FFF/FDM version and 1:16 for the DLP/SLA version.

VERSIONS’ SPECIFICATIONS

FFF/FDM 1.0 version features:

Contains 54 parts;
A printed model is 166 mm tall, 382 mm wide, 186 mm deep;
Wheels rotate smoothly on bearings;
Side wings extend;
Two engine side cover options;
Rear cover can be opened;
Removable battery access cover;
Backrest can be slightly raised;
Rotating engines;
Tunnels for LED wiring;
All parts are divided in such a way that you will print them with the smallest number of support structures.

DLP/SLA 1.0 version features:

Contains 55 parts;
A printed model is 83 mm tall, 191 mm wide, 93 mm deep;
Wheels rotate smoothly on bearings;
Side wings extend;
Two engine side cover options;
Rear cover can be opened;
Removable battery access cover;
Backrest can be slightly raised;
Rotating engines;
Tunnels for LED wiring;
All parts are divided in such a way to fit the build plates and to ensure that support structures are generated where needed.

You can get the The TRON Light Cycle model for 3D printing immediately after the purchase! Just click the green Buy button in the top-right corner of the model’s page. You can pay with PayPal or your credit card.

Watch the tutorial on how to assemble The TRON Light Cycle 3D Printing Model on Gambody YouTube channel.

Also, you may like other Akira and Bikes 3D Printing Models.

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FAQ:

Generic

Below you can find printing recommendations for Cura, Bambu Lab, Simplify3D, Slic3r and PrusaSlicer software.

Disclaimer: The following printing settings are a recommendation, not an obligation. The parameters can vary depending on the peculiarities of your 3D printer, the material you use, and especially the particular assembly part you are working with. Each part that any model comprises often needs preliminary review, and you are free to tweak the settings the way you find suitable.

Note:

You can scale up the model (downscaling for FFF/FDM 3D printers is not recommended!);

All connectors should be printed at 100% Infill.

Bambu Lab printing recommendations:

These basic 3D printing settings recommendations for beginners were tested in Bambu Studio 1.9.1. Test models were printed on the Bambu Lab A1, Bambu Lab A1 Mini, Creality Ender 3 S1, Anycubic Kobra 2, and Anycubic Vyper using PLA and PETG filaments.