Revolutionizing Aerospace Sustainability

In parallel with the developing technology of our century, the damage to the environment has also increased. You are now facing an innovative, renewable, and environmentally friendly project created by three high school students who are aware of this issue. In addition, thanks to the selected materials, the project is not only cost-effective but also strong in terms of durability. With this amazing project, we will take you on a small tour. Are you ready?

Explore Plan & Strategy

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Our Mission

Our mission is to revolutionize high-performance material solutions by combining cutting-edge technologies, sustainability, and innovation. We aim to empower industries like aerospace, automotive, and defense with advanced coatings and materials that enhance efficiency, reduce costs, and promote environmental responsibility.

Our Vision

To become a global leader in advanced material technologies, setting the standard for sustainable, multi-functional solutions that drive innovation across industries. We envision a future where our materials play a pivotal role in creating eco-friendly and efficient systems, transforming the way industries approach durability, thermal management, and self-healing capabilities.

Our Values

Innovation: Pushing the boundaries of material science
Sustainability: Prioritizing environmentally responsible practices
Collaboration: Building strong partnerships with industries, researchers, and organizations to drive impactful change.
Excellence: Ensuring the highest quality in our products and processes to exceed industry standards.
Integrity: Conducting our business with honesty, transparency, and ethical responsibility.
Customer-Centric Approach: Focusing on solving real-world challenges for our customers

Features

Thermal Management

Enhancing heat regulation using graphene-based and nanoparticle-enhanced materials.

Sustainable Materials

Eco-friendly materials offering durability, efficiency, and environmental benefits.

Aerospace Applications

Lightweight, high-performance solutions for extreme aerospace environments.

Advanced Coatings

Self-healing coatings inspired by biomimetic designs to resist damage.

Energy Efficiency

Cost-effective solutions improving energy utilization and reducing waste.

Durability Innovation

Materials engineered to endure stress and extreme thermal conditions.

Meet Our Team

Alinda Taşatar

Project Lead

An entrepreneur student who is passionately dedicated to making projects in STEM fields, especially in AI and aerospace.

Mehmet Doruk Memik

Programmer & Graphic Design

A student passionately dedicated to learning and developing in the fields of software, graphic design, and finance.

Ahmetcan Ahlat

researcher & PR

A passionate student who is eager to learn, self-improving, fun, and at the same time, very humorous.

Frequently Asked Questions

How does your self-healing material technology work?

Our technology uses microencapsulation to create self-healing capabilities. We encapsulate flaxseed oil within a specialized shell material. When damage occurs, these microcapsules break under mechanical pressure, releasing the oil. The oil then fills the damaged area and forms a protective film through oxidation when exposed to air, effectively healing the damage.

What makes your material composition unique?

We combine graphene and ceramic nanoparticles with Phase Change Materials (PCMs). Graphene provides exceptional thermal conductivity (~5000 W/mK) and mechanical strength, while ceramic nanoparticles enhance thermal stability and heat storage capacity. This combination creates a material that's both highly durable and thermally efficient.

What are the key advantages of your technology?

Our technology offers multiple benefits:
1) Automatic self-repair capabilities through microencapsulated healing agents,
2) Enhanced thermal conductivity and stability through graphene integration,
3) Improved mechanical strength from ceramic nanoparticles,
4) Environmental sensitivity through the use of bio-based materials like flaxseed oil.

How environmentally friendly is your solution?

Our solution prioritizes environmental sustainability by incorporating bio-based materials like flaxseed oil. The microencapsulation process is designed with environmental sensitivity in mind, and our material selection focuses on creating durable, long-lasting components that reduce the need for replacement and minimize space debris.

What applications can your technology be used for?

Our technology is primarily designed for spacecraft components but can be adapted for various applications where self-healing and thermal management are crucial. The combination of microencapsulated healing agents with PCMs makes it particularly suitable for environments with significant temperature fluctuations and mechanical stress.