Surface Finish Predictor

Predict surface roughness (Ra, Rz) based on cutting parameters, tool geometry, and material properties for precision quality control

Tool Geometry

Tool Type

Tool Nose Radius (mm)

Lead Angle (degrees)

Tool Sharpness

Material Properties

Workpiece Material

Material Hardness (HB)

Material Ductility

Cutting Parameters

Feed Rate (mm/rev or mm/tooth)

Cutting Speed (m/min)

Depth of Cut (mm)

Coolant Type

Surface Finish Prediction Results

0.0

Ra (μm) - Average Roughness

Excellent

0.0

Rz (μm) - Peak-to-Valley

Excellent

0.0

Rt (μm) - Total Height

Excellent

ISO Finish Grade

Standard

Surface Quality Analysis

Application Suitability

General machining

Recommended Use

Non-critical surfaces

Surface Finish Optimization

Advanced Surface Analysis Features

Multi-Parameter Analysis

Calculate Ra, Rz, and Rt values with ISO grade classification for comprehensive surface quality assessment.

Tool Geometry Impact

Account for nose radius, lead angle, and tool wear effects on surface finish quality.

Application Matching

Determine suitability for different applications from rough machining to precision finishing.

Parameter Optimization

Get recommendations for feed rate, speed, and tool selection to achieve target surface finish.

Quality Control Applications

Automotive Components

Engine components, transmission parts - ensure surface quality for optimal performance and longevity.

Aerospace Manufacturing

Critical surfaces, sealing interfaces - meet stringent aerospace surface finish requirements.

Medical Devices

Implants, surgical instruments - achieve biocompatible surface finishes with precise control.

Precision Optics

Optical components, molds - ultra-fine surface finishes for optical performance.