PROJECTS
Extensive engineering experience across multiple industries.
SRAM wanted to give riders a smarter way to optimise suspension performance in real conditions. We engineered a compact device that captures live data and provides instant tuning feedback, creating a proven, production-ready product used by riders around the world.
Mine operators needed a reliable way to monitor wear in critical downhole components and prevent costly downtime. We developed a robust sensor system that provides real-time wear data and predictive alerts directly from site equipment, improving safety, reducing maintenance, and extending component life.
SRAM needed a slimmer, lower-cost tyre pressure monitoring system for OEM bike integration. We engineered and manufactured the compact housing, precision circuitry, test fixtures, and production infrastructure for high-volume output, delivering a product that meets performance and cost targets with long-term reliability.
Epiroc and MPC Kinetic needed a robust vehicle platform to support development of an autonomous haulage system. We engineered and manufactured the heavy-duty robotic platform, providing the structural integrity and site-ready durability needed for safe autonomous operation and efficient field testing.
Mine sites needed a compact crusher capable of handling larger feed sizes with greater throughput and longer life. We engineered the W300 Series 3 using advanced CAD and FEA to optimise key components for efficiency and durability, achieving 10% higher efficiency, extended component life, and reliable performance.
SRAM needed a web platform to visualise ride data from its connected cycling devices. We developed the front-end interface and data visualisation tools that support more than 150,000 users, delivering an intuitive app that scales with the AXS ecosystem.
SRAM needed a mobile platform to configure, monitor, and personalise its connected cycling components. We developed native iOS and Android apps with a reusable UI library for speed, stability, and brand consistency, allowing riders to customise controls, update firmware, and monitor performance in real time.
Mine sites faced high-risk hydraulic maintenance environments requiring technicians to work in live equipment zones. We engineered and manufactured a rugged hardware platform and enclosure system for safe, remote hydraulic tuning, reducing technician exposure and improving maintenance efficiency.
Cyclists needed a simple way to find the right eTap-equipped bike from a wide range of models. We engineered the front-end interface, filters, and scalable web platform for a seamless search experience that helps riders explore options by brand, style, and series.
Mining operators experienced frequent bucket tooth and shroud failures under extreme load conditions. We used advanced FEA to analyse field failures and redesign critical geometry to increase strength and lifespan, producing a certified tool range that reduces downtime and improves reliability.
Underground mining operations needed a lighter, higher-capacity tray for the MT6020 to boost productivity in confined spaces. We engineered the tray platform from concept through FEA and mine-site trials, achieving a 25% weight reduction and 12% greater capacity while improving payload and reliability underground.
Mining operations needed a heavy-duty tray with a replaceable steel floor to improve durability and simplify maintenance. We designed and validated the tray platform through FEA, production drawings, and site trials, creating a rugged flex-floor tray that improves material flow, simplifies assembly, and extends field life.
Highly mobile stands to support Komatsu 930E and CAT777 dump trucks.We designed and manufactured these ourselves, using high level analysis to ensure a rating of up to 100 tonnes.
Mining and equipment clients needed certified transport frames to move large components safely and efficiently. We engineered custom frames using detailed site measurements, FEA, and in-house fabrication to meet strength and compliance standards, ensuring safe, compliant transport and reduced handling risk.
Our team needed a unified system to replace manual processes and improve operational visibility. We developed BusMin, a scalable web platform that automates workflows, integrates data, and delivers real-time insights to reduce administration, improve collaboration, and increase efficiency.
