Klabs

Service

Manufacturing
Total Service

Manufacturing
Total Service

K-Labs' innovative
3D printing technology
using DfAM!

Verified high-quality parts production/ prototype production is possible
through precise design and analysis simulation.

  • Design
  • Analysis
  • 3D Printing

With

Why Klabs?

Design + Analysis + 3D Printing Integration Progress

K-Labs introduces Manufacturing Innovation to reduce design costs, reduce product weight, and reduce manufacturing process time through both professional design and DfAM interpretation.

Existing manufacturing methods that conduct design and interpretation separately cannot be verified in real time, which is time-consuming and expensive to produce and difficult to verify errors.

K-Labs can reduce design costs, reduce product weight, and shorten manufacturing process time by implementing modeling with intuitive and analytical functional ideas considering the product's usage environment through professional design and DfAM interpretation.

Experience manufacturing technological innovation through 3D printing with K-Labs.

Existing Manufacturing Methods Diagram
Separate Proceeding
Existing Manufacturing Methods
  • Design / Modeling
  • DfAM / Analysis

Because Real-time Verification is Impossible, More Errors, more Time and Cost Wasted

Integration Proceeding Diagram
Integration Proceeding
  • Design / Modeling
  • DfAM / Analysis

Real-time Verification to Reduce Errors, Save Time and Cost for Design & Analysis

Optimized 3D printing design with DfAM

Conventional Method - Reduce Parts Count 68EA, Process 5Times, weight 52kg DfAM Method - Reduce Parts Count Reduce 68EA -> 12EA, Process Reduce 5Times -> 2Times, weight 52kg -> 14kg
Conventional Method - Reduce Parts Count 68EA, Process 5Times, weight 52kg, DfAM Method - Reduce Parts Count Reduce 68EA -> 12EA, Process Reduce 5Times -> 2Times, weight 52kg -> 14kg
Cost reduction / Economy reduction

DfAM(Design for Additive Manufacturing) is an approach to designing products in consideration of the 3D printing process.

This enables the complex form of products, minimizes material use, and reduces fabrication time.

Case in point is K-Labs' DfAM, which reduces the number of parts by 82%, reduces the fabrication process by 60%, and reduces the weight by 73%.

Optimization of Defense parts
Optimization of Defense parts
BEFORE
  • Count of Parts

    78EA

  • Product Weight

    390g

  • Production Time

    1Month

AFTER
  • Count of Parts

    54EA

  • Product Weight

    260g

  • Production Time

    1Week

  • Weight

    -33%

  • Count of Parts

    -30%

  • Production Period

    -73%

Development of an integrated nozzle
Development of an integrated nozzle
BEFORE
  • Count of Parts

    78EA

  • Production Time

    1Month

AFTER
  • Count of Parts

    54EA

  • Production Time

    1Week

  • Count of Parts

    -88%

  • 제작 단가

    -67%

  • Production Period

    -77%

Optimization of Defense parts & Development of an integrated nozzle
Optimization of Defense parts
BEFORE
  • Count of Parts

    78EA

  • Product Weight

    390g

  • Production Time

    1Month

AFTER
  • Count of Parts

    54EA

  • Product Weight

    260g

  • Production Time

    1Week

  • Weight

    -33%

  • Count of Parts

    -30%

  • Production Period

    -73%

Development of an integrated nozzle
BEFORE
  • Count of Parts

    78EA

  • Production Time

    1Month

AFTER
  • Count of Parts

    54EA

  • Production Time

    1Week

  • Count of Parts

    -88%

  • 제작 단가

    -67%

  • Production Period

    -77%

DfAM Optimal Design Process

GRIPPER for Car Seat Transfer
(2022 DfAM Competition Silver Award Winner)

  • Product Review
  • Scanning/Modeling
  • Structural Analysis
  • Displacement Analysis
  • Complete