REG_FILE // RETRO_FUTURE_PUNK

Functional
Aesthetics

[ CASSETTE.SIDE-A // LOADED ]

Bridge the gap between TECH and AESTHETIC by pairing artistic intuition with a research-driven mindset. My goal is to ensure that visual elegance is always grounded in technical rigor and practical execution.

SYS.BOOT // KERNEL_CORE_v5.5
DATA_DECK: [MAGNETIC_TAPE_OPTIMIZED]
> CRISP_FONT_RENDERING... STABILIZED.
> RADAR_GRID_VECTOR_DENSITY... MAXIMIZED.
> CONTRAST_RATIO_CORRECTION... COMPLETED.

// Personnel
Dossier

Hi, I'm an Industrial Product Designer and Digital Artist based in Rotterdam. My journey started with drawing character concepts and props online, but I quickly realized I wanted to hold these objects in real life. That curiosity led me down the rabbit hole of 3D printing and industrial fabrication. Now, I spend my time turning wild digital concepts into physical, working realities.

CORE_CAPABILITIES [ SEC. A ]

3D Modeling & Printing
Prototyping & Testing
Sketching & Drawing

> END_TO_END_EXECUTION: Managing the full product lifecycle from user research, initial concept design, and prototype testing to finalizing material selection and sourcing.

SOFTWARE_SUITE

SolidWorks Blender KeyShot Photoshop Clip Studio Paint DaVinci Resolve

INTERESTS_LOG [ SEC. B ]

  • [ELECTRICAL] Electronic Engineering
  • [RESEARCH] Materials (ABS/ASA/PETG)
  • [SPORT] Cycling & Hiking
  • [KNOWLEDGE] Sci-Fi Novels & DIY
[ ANTENNA ARRAY SYSTEM ]
CRITICAL LAYER // FABRICATION PARAMETERS

// DIY_Projects

Ballistic Carrier
01 / 04 FABRIC
Tactical Textile Lab

Modular
Ballistic Carrier

Hand-sewn heavy-duty vest. Pattern drafting, Kevlar stitching, MOLLE system.

1000D NylonAramidPU Foam3D Mesh
Jump to Details
Diffusion Platform
02 / 04 LIGHT
CMF Scattering Lab

Light Diffusion
Test Platform

Evaluate material light transmission, diffusion, reflection & luminance distribution.

PLA/PETGAcrylicPC DiffuserPWM
Jump to Details
Humidifier
03 / 04 Electrical
Waterproof electrical design

SCI-FI
HUMIDIFIER

Fan-made decorative humidifier, crafted as a real-life model of a 3D in-game prop design from Arknights: Endfield.

WaterproofElectronic OscillatorUltrasonic
Jump to Details
04 / 04 COMING SOON
Future Build

Project
In Development

New experimental fabrication project in research phase. Stay tuned.

ClassifiedR&D
Coming Soon

PRJ_01

TACTICAL_TEXTILE_LAB

Modular
Ballistic Carrier

I wanted to understand how heavy-duty tactical gear is actually made, so I built my own modular vest from scratch. It wasn't just about making it look cool — I learned the sewing process, pattern drafting, material properties + stacking them in a suitable order and how to work with tough composite materials.

> Process Focus:
1. Patterning: Sketching and cutting flat patterns that fit the body right.
2. Materials: Hunting down the right abrasion-resistant nylons and hardware.
3. Construction: Learning how to stitch through thick layers of Kevlar and foam.
4. Modularity: Setting up a proper MOLLE grid system so pouches can snap right on.
CORE_SPEC_SHEET
Carrier1000D Nylon Oxford
Soft ArmorLayered Aramid Composites
Hard Armor8mm Alloy Plate
Trauma pad10mm Ventilated PU Foam
Ergonomic3D Micro-mesh Air-ducts
> CALIBRATED_THICKNESS: 40.00 MM

PRJ_02

CMF_SCATTERING_LAB

[ AUTOMATION ]

Light Diffusion
Test Platform

I designed and built a light diffusion test platform to systematically assess the visual performance of different materials and surface finishes under controlled lighting conditions. This platform supports early-stage CMF decision-making in product development, focusing on how materials behave in terms of light transmission, diffusion, reflection, and luminance distribution.

TEST_MATERIALS_MATRIX
Material 01Translucent 3D-printed PLA
Material 02Translucent 3D-printed PETG
Material 03Acrylic Sheet
Material 04AB Epoxy Resin Plate
Material 05PC Light Diffuser Sheet

CONTROLLABLE_VARIABLES [ PARAMETERS ]

Light Intensity Material Type Material Color Material Thickness Surface Finish Diffusion Distance

CONCEPT_DESIGN [ OVERVIEW ]

> PLATFORM_ARCHITECTURE_RENDER

Concept Design
[ FIG_A // 754×352 px ]
> CRITICAL_FIX_LOG:
The copper foil tape could not safely carry 2A current after calculation. Therefore, replaced with oxygen-free copper wire of at least 0.5 mm² cross-sectional area.

In addition, the frame of the test panel was painted black to absorb as much ambient light as possible and minimize the influence of material indirect reflections.
> ITERATION_COMPARISON_CHART // V1 → V2 → V3 [ FIG_B // 1233×200 px ]
Iterations
ITER_V1

Single LED // Manual Solder

  • CON Take too much time to solder
  • CON Light effect not ideal
ITER_V2

LED Strip // Copper Tape

  • CON Tape not suitable for 2A current
  • CON Couldn't change brightness
ITER_V3

LED Strip + PWM Controller

  • PRO Able to change brightness
  • PRO Dark surface emits reflected light
> FINAL_PRODUCT_3D_VIEW // PRIMARY_ASSET
Test Platform 3D View
[ FIG_7 // 673×699 px ]
> FINAL_RENDER (3D)
Final Model 3D
[ FIG_8 // 540×567 px ]
> CONCEPT_SKETCH (2D)
Concept Sketch 2D
[ FIG_9 // 891×855 px ]
> PLATFORM_STATUS: OPERATIONAL MCU: Arduino DRIVER: Precision Stepper TEST_CAPABILITY: Omnidirectional Refraction Profiling CMF_READY
> FABRICATION_PROCESS_FLOW // STEP_10 → STEP_19 [ SCROLL_TO_PAN ]
Process 10
STEP_10 3D modelling
Process 11
STEP_11 Laser cutting
Process 12
STEP_12 Test build
Process 13
STEP_13 Surface finish
Process 14
STEP_14 Subassembly
Process 15
STEP_15 Circuit soldering
Process 16
STEP_16 Circuit verification
Process 17
STEP_17 Polarity check
Process 18
STEP_18 Subassembly
Process 19
STEP_19 Circuit testing (PWM duty cycle observed)

PRJ_03 [ PNEUMATICS ]

Spray-Booth V2

Industrial laboratory-grade desktop spray enclosure. Built with a heavy-duty dual positive-pressure HEPA & activated carbon extraction core.

HEPA Filtration Activated Carbon Positive Pressure

> MORE_PROJECTS_INBOUND

[ ARCHIVE_EXPANDING ]

// Artworks_Archive

> ACCESSING_VISUAL_ASSET_MATRIX...

CRITICAL_WARNING // BUFFER_EMPTY

[ Artwork Gallery Overhaul In Progress ]

> DATA_UPLINK_INITIALIZED

ranrsuika@gmail.com

LOC: ROTTERDAM // NL ENCRYPTION: SECURED_SSL FREQ: 144.875 MHz