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We Are Novastrax.

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About

(Computational Propulsion)

We build AI systems that generate flight-ready liquid rocket engine designs from specifications — combustion chambers, cooling channels, injectors, and nozzles — optimized for metal additive manufacturing.

© 2026

(01)

(Process)

© 2025

(01)

(Process)

Men

001

Specification

The engagement begins with your program requirements — thrust class, propellant selection, chamber pressure, and nozzle exit conditions. Manufacturing constraints are defined before generation begins.

Key inputs

Thrust target and chamber pressure

Propellant combination and feed system

Manufacturing platform and resolution constraints

001

Specification

The engagement begins with your program requirements — thrust class, propellant selection, chamber pressure, and nozzle exit conditions. Manufacturing constraints are defined before generation begins.

Key inputs

Thrust target and chamber pressure

Propellant combination and feed system

Manufacturing platform and resolution constraints

002

Generation

The AI system traverses thermodynamic models and physical design equations against your specification. Full 3D geometry — combustion chamber, injector, cooling channels, and nozzle — is output in a single computational session.

What is generated

Combustion chamber and injector geometry

Regenerative cooling channel layout

Nozzle contour optimized for expansion ratio

002

Generation

The AI system traverses thermodynamic models and physical design equations against your specification. Full 3D geometry — combustion chamber, injector, cooling channels, and nozzle — is output in a single computational session.

What is generated

Combustion chamber and injector geometry

Regenerative cooling channel layout

Nozzle contour optimized for expansion ratio

003

Validation

Every design is cross-referenced against characterized hot-fire test datasets. The system surfaces designs within validated performance envelopes and flags parameters that deviate from historical data.

Validation approach

Cross-reference with hot-fire test data

Thermodynamic performance envelope check

Deviation flagging for off-nominal parameters

003

Validation

Every design is cross-referenced against characterized hot-fire test datasets. The system surfaces designs within validated performance envelopes and flags parameters that deviate from historical data.

Validation approach

Cross-reference with hot-fire test data

Thermodynamic performance envelope check

Deviation flagging for off-nominal parameters

(03)

(Awards)

© 2026

(03)

(Awards)

2x

Awwwards

Bruten Website

SOTD

2x

Awwwards

Bruten Website

SOTD

1x

CSSD Awards

Fuel Portfolio

WOTD

1x

CSSD Awards

Fuel Portfolio

WOTD

Behance

Branding Showcase

Featured

Behance

Branding Showcase

Featured

5x

FWA

Digital Experience

FOTD

5x

FWA

Digital Experience

FOTD

2x

CSS Winner

Creative Website

SOTD

2x

CSS Winner

Creative Website

SOTD

4x

Mindsparkle

Modern Design

Feature

4x

Mindsparkle

Modern Design

Feature

3x

Dribbble

Visual Design

Highlighted

3x

Dribbble

Visual Design

Highlighted

8x

Web Excellence Awards

Brand System

Winner

8x

Web Excellence Awards

Brand System

Winner

(05)

(The System)

© 2026

(05)

(The System)

Physics-

Native Design Core

Combustion thermodynamics, Nusselt heat transfer correlations, and nozzle contour equations are encoded directly into the generation engine — not bolted on as post-processing steps.

Hours,

Not Months

Design cycles that traditionally require weeks of manual engineering — chamber sizing, cooling channel layout, injector patterning, nozzle shaping — are resolved computationally in a single session.

Metal

Additive-Native Output

Geometry is generated against the constraints of powder-bed fusion and DED processes. Internal channel resolution, wall thickness, and printability are part of the design specification, not afterthoughts.

ITAR

US-Based & Controlled

Designed and operated within the United States. All technical data is handled in compliance with ITAR export control regulations, built for programs in launch vehicle development and national defense.