- Chemical Resistant
- Boro Glass 3.3
- White Printing
| PART No. | Capacity (ml) | Number Sequence | PACK Qty. |
| 5180-60 | 60 | Unnumbered | 1 |
| 5180-60-1 | 60 | 1 to 36 | 36 |
| 5180-60-37 | 60 | 37 to 72 | 36 |
| 5180-60-73 | 60 | 73 to 108 | 36 |
| 5180-300 | 300 | Unnumbered | 1 |
| 5180-300-1 | Bar Coded 300 | 1 to 24 | 24 |
| 5180-300-25 | Bar Coded 300 | 25 to 48 | 24 |
| 5180-300-49 | Bar Coded 300 | 49 to 72 | 24 |
| 5180-300-73 | Bar Coded 300 | 73 to 96 | 24 |
| 5180-300-97 | Bar Coded 300 | 97 to 120 | 24 |
| 5180-300-121 | Bar Coded 300 | 121 to 144 | 24 |
| 5180-300-145 | Bar Coded 300 | 145 to 168 | 24 |
| 5180-300-169 | Bar Coded 300 | 169 to 192 | 24 |
| 5180-300-193 | Bar Coded 300 | 193 to 216 | 24 |
| 5180-300-217 | Bar Coded 300 | 217 to 240 | 24 |
| 5180-300-241 | Bar Coded 300 | 241 to 264 | 24 |
| 5180-300-265 | Bar Coded 300 | 265 to 288 | 24 |
| 5180-300-289 | Bar Coded 300 | 289 to 312 | 24 |
| 5180-300-313 | Bar Coded 300 | 313 to 336 | 24 |
| 5180-300-337 | Bar Coded 300 | 337 to 360 | 24 |
| 5180-300-361 | Bar Coded 300 | 361 to 384 | 24 |
| 5180-300-385 | Bar Coded 300 | 385 to 408 | 24 |
| 5180-300-409 | Bar Coded 300 | 409 to 432 | 24 |
Uses:
- Automated BOD Testing:
- BOD testing typically involves multiple samples, and in high-throughput laboratory settings or those utilizing robotic systems, specialized stoppers may be designed for seamless integration with automated processes. The “Penny Robotic Stopper” could be designed for easy handling and compatibility with robotic systems.
- Airtight Sealing for Automation:
- The “Penny Robotic Stopper” may be designed to provide an airtight seal while facilitating easy robotic handling. This is crucial for maintaining the integrity of BOD tests, especially in situations where large numbers of samples are processed automatically.
- Reduced Contamination Risk:
- Automation reduces the need for manual handling, minimizing the risk of contamination. The design of the robotic stopper may aim to prevent contamination of BOD samples and maintain the accuracy of the test results.
- Integration with Laboratory Robotics:
- Laboratories with robotic systems for sample processing and analysis may use BOD bottles with specialized stoppers designed to seamlessly integrate with their robotic platforms. This could enhance efficiency and reduce the potential for human error.
- High-Throughput Screening:
- BOD testing is a common method for assessing water quality. In settings where high-throughput screening is required, the use of robotic stoppers could contribute to the speed and efficiency of the testing process.
- Compatibility with Robotic Grippers:
- The design of the Penny Robotic Stopper may take into consideration the type of grippers used by robotic systems, ensuring easy and secure handling during the automation of BOD testing procedures.
- Standardized Testing Protocols:
- Despite the automation, BOD testing using bottles with robotic stoppers would likely adhere to standardized testing protocols established by regulatory bodies or organizations to ensure the accuracy and reliability of results.
- Laboratory Efficiency:
- Laboratories implementing robotic systems aim to improve efficiency and reduce turnaround times for testing. The use of specialized stoppers can contribute to the overall efficiency of BOD testing processes.
