Manufacturing Capabilities
Robotic arm assisted advanced manufacturing and material testing
Large-scale 3D Printing
Automatic fiber placement
Rapid material testing
Robotic-assisted 3D Printing
Collaborative Robotic Automated Fiber-placement Tool (CRAFT)
Composite manufacturing and curing
Student working in the composite manufacturing lab to fabricate glass-fiber laminates (Credit: Mahdi, Mohammed Abir)
Composite curing under room temperature in a vacuum bagging.
Oven for composite curing
PRECISION BENCHTOP CURING OVEN OV301
3D printers (Resin, PLA, Composites, etc., Ultimaker high-quality 3D printing and High-resolution Resin 3D printing)
Anycubic Resin 3D Printer
Ultimaker S3 3D Printer
Craftbot 3D Printer
Sensors
ROBOTIQ’s FT 300-S Force Torque Sensor:
Maximum measurable load: Measure 3 axis force and 3-axis moment.
the force measurement range is -300 - +300 N
Fz in -600 - +600 N.
Moment range is -30 - +30 N-m.
Data Streaming: Output rate in data stream mode is 1000 Hz.
Interface: USB, Ethernet, TCP/IP
MICRO-EPSILON LLT3000-25 Laser displacement measure system
Measuring Range:
X-Axis (Measuring Width): 25 mm
Z-Axis (Measuring Distance): 100 mm ± 12 mm (stand-off distance)
Resolution:
X-Axis: 12 µm
Z-Axis: 3 µm
ROBOTIQ’s FT 300-S Force Torque Sensor
MICRO-EPSILON LLT3000-25 Laser displacement measure system
Computational Facilities
Campus HPCC
High-performance computational center at OKstate provides computational efficient design machines with following details:
164 compute nodes, each with dual Intel “Skylake” 6130 CPUs and 96 GB RAM
12 large memory nodes, each with dual Intel “Skylake” 6130 CPUs and 768 GB RAM
1 super memory node with dual Intel “Skylake” 6130 CPUs and 1.5 TB RAM
10 GPU nodes, each containing dual NVIDIA Quadro RTX6000 GPUS for a total of 20 GPUs
100 Gb/s Intel Omni-path low-latency interconnect
360 TB high-speed parallel file system
Slurm Workload Manager
More details can be found in https://hpcc.okstate.edu/pete-supercomputer.html
(Credit: HPCC at OKState)