Radioloygraph Dry Film
Temperature and Humidity: Radioloygraph Dry Film should be stored in a controlled environment with a temperature range of 10℃ to 25℃ and a relative humidity between 30% and 65%. It is essential to keep Radioloygraph Dry Film away from heat sources to maintain its quality and prevent any degradation in performance.
Gas Environment: The storage area must be free from harmful gases, including acidic and alkaline substances such as hydrogen sulfide, ammonia, sulfur dioxide, and formaldehyde. Exposure to these gases can adversely affect Radioloygraph Dry Film, leading to irreversible damage and a decline in imaging quality.
Stacking and Handling: Radioloygraph Dry Film should always be stored upright to avoid damage caused by pressure. Proper stacking is crucial for maintaining the film’s integrity. During transportation, it is vital to protect Radioloygraph Dry Film from sunlight, rain, strong ultraviolet radiation, and violent vibrations, as these factors can compromise its quality and effectiveness.
By following these guidelines, healthcare facilities can ensure that Radioloygraph Dry Film remains in optimal condition for use in medical imaging. Proper storage and handling are key to preserving the film’s performance and ensuring accurate diagnostic results.
The Radiology Dry Film model RM-HA1 is a high-quality thermal imaging solution designed for the production of clear and detailed medical digital images. Manufactured in accordance with the executive standard outlined in Luwei Machinery No. 20210088, this film undergoes rigorous testing to ensure it meets specific technical requirements and maintains the highest standards of quality and performance.
Technical Specifications and Quality Assurance
To guarantee its suitability for medical imaging applications, the RM-HA1 Radiology Dry Film must meet the following criteria:
Fog Density: ≤ 0.25, ensuring minimal background noise for clearer and more accurate images.
Maximum Density: ≥ 2.8, providing excellent contrast that is crucial for detailed imaging.
Shape: The film features a square design with four rounded corners, enhancing ease of handling and reducing the risk of damage during use.
Apparent Quality: The edges and coating are free from any visible defects, ensuring a pristine surface that maintains image integrity.
Available Sizes
The RM-HA1 Radiology Dry Film is available in multiple sizes to accommodate various imaging needs:
8 x 10 inches
10 x 12 inches
11 x 14 inches
14 x 17 inches
These sizes offer flexibility and adaptability for different imaging technologies and clinical environments.
Manufacturing Process and Environmental Benefits
Produced from large rolls, the RM-HA1 Radiology Dry Film features a double-coated structure with both sides treated with a thermal imaging layer and a thermal protection layer. This innovative design eliminates the need for light-sensitive silver halide, making the film environmentally friendly by avoiding harmful chemicals typically associated with traditional radiographic films.
The film's advanced thermal properties allow it to reproduce digitally stored medical images after computer processing, ensuring high-fidelity output without causing environmental pollution. Its compatibility with dry imaging equipment further enhances its eco-friendly attributes, as it requires no wet processing steps.
Applications and Compatibility
The RM-HA1 Radiology Dry Film is versatile and suitable for printing and outputting a wide range of medical digital images, including:
Computed Radiography (CR)
Digital Radiography (DR)
Computed Tomography (CT)
Magnetic Resonance Imaging (MRI)
It can be directly used with printers from leading manufacturers such as Fuji, Agfa, and other dry imaging systems. This compatibility streamlines the imaging process, improving workflow efficiency and productivity in healthcare settings.
Conclusion
By adhering to stringent quality standards and leveraging advanced manufacturing techniques, the RM-HA1 Radiology Dry Film ensures reliable, high-quality images that support accurate diagnosis and effective treatment planning. Healthcare providers can trust this film to deliver consistent, environmentally responsible imaging solutions, ultimately enhancing patient care and operational efficiency in modern medical facilities
