Simulated microgravity research is critical for space life sciences, pharmaceutical development, and human health studies. However, conventional circular cell culture containers are not designed for rotational microgravity simulators and frequently allow air bubble formation, leakage, and unstable mounting. These limitations reduce experimental accuracy, restrict throughput, and increase the risk of inconsistent or failed results.
This technology introduces a purpose-built circular sample container and mounting platform engineered specifically for 3D clinostat systems. Its bubble-minimizing geometry, sealed sterile environment, and embedded accelerometer enable real-time gravity validation while maintaining sample integrity. Prototype testing demonstrated near-zero gravity conditions and effective bubble prevention, offering a scalable and reliable solution for simulated microgravity experiments.
The image shows the fully assembled prototype mounted on the attachment plate, highlighting the balanced circular container design and secure integration optimized for stable multi-axis rotation in a 3D clinostat.