Hygienic Pallet HP1210/3R Polymer & Composite
0,00 €Hygienic Pallet HP1210/3R
| Dimension (mm): | 1200 x 1000 x150 |
| Type: | single surface 4way entry |
weight (Kg): | 23.5 (±2%) |
| Static load (Kg): | 6000 |
Dynamic load (Kg): | 1500 |
| Racking load (Kg): | 1000 |
Material: | HDPE/PP lnj. Grade + UV Stabilizer |
| Loading Q’ty 1×40’ft HC: | 470 Pcs |
Hygienic Pallet HP12105R Polymer & Composite
0,00 €Hygienic Pallet HP1210/5R
| Dimension (mm): | 1200 x 1000 x160 |
| Type: | single surface 4way entry |
Weight (Kg): | 22.00 (±3%) |
| Static load (Kg): | 7,5000 |
Dynamic load (Kg): | 1,500 |
| Racking load (Kg): | 1,250 |
Material: | HDPE/PP lnj. Grade + UV Stabilizer |
| Loading Q’ty lx40’ft HC: | 360 pcs |
Industrial Nanofiber Production Line (INFL)
0,00 €Introduction
Innovative Surgical Navigation Systems
0,00 €Description
The surgical navigation system is functionally similar to the navigation system that use in airplanes or even mobile phones, which can inform us the exact position. This device will display the exact position of the surgical instruments to surgeons while surgery, from patient’s CT scan or MRI images by using its tracking system. Therefore, the surgeon can have accurate information about the position of his instrument during surgery and reach his predetermined goal according to a predetermined plan with minimal risks and complications. For instance, it fully removes the tumor, conducts a comprehensive biopsy, or avoids damaging healthy tissues around the tumor.
The advantages of using this system are summarized as follows:
1- More complete surgery (complete removal of the tumor) and therefore reduce the likelihood of recurrence of the disease
2- Increase surgical accuracy, protect healthy tissues and therefore reduce surgical side effects
3- Possibility of accurate surgery (sampling of small lesions)
4- Reduce hospitalization time and return to normal life due to less invasive surgery
5- Increase patient safety
Innovative Surgical Navigation Systems
0,00 €Description
The surgical navigation system is functionally similar to the navigation system that use in airplanes or even mobile phones, which can inform us the exact position. This device will display the exact position of the surgical instruments to surgeons while surgery, from patient’s CT scan or MRI images by using its tracking system. Therefore, the surgeon can have accurate information about the position of his instrument during surgery and reach his predetermined goal according to a predetermined plan with minimal risks and complications. For instance, it fully removes the tumor, conducts a comprehensive biopsy, or avoids damaging healthy tissues around the tumor.
The advantages of using this system are summarized as follows:
1- More complete surgery (complete removal of the tumor) and therefore reduce the likelihood of recurrence of the disease
2- Increase surgical accuracy, protect healthy tissues and therefore reduce surgical side effects
3- Possibility of accurate surgery (sampling of small lesions)
4- Reduce hospitalization time and return to normal life due to less invasive surgery
5- Increase patient safety
Lab Electrospinning Unit
0,00 €Introduction
Lab Electrospinning Unit is a full-automatic laboratory electrospinning instrument which is able to produce different polymer nanofibers. This system makes use of electrostatic and mechanical force to spin fibers from the tip of a fine spinneret. The spinneret is maintained at a positive or negative charge by a DC power supply. When an applied electrostatic charge overcomes the surface tension of the solution, the polymer jet is formed. A rapidly rotating collector results in aligned nanofibers while stationary collector results in randomly oriented fiber mats.
Lab Electrospinning Unit
0,00 €Introduction
Lab Electrospinning Unit is a full-automatic laboratory electrospinning instrument which is able to produce different polymer nanofibers. This system makes use of electrostatic and mechanical force to spin fibers from the tip of a fine spinneret. The spinneret is maintained at a positive or negative charge by a DC power supply. When an applied electrostatic charge overcomes the surface tension of the solution, the polymer jet is formed. A rapidly rotating collector results in aligned nanofibers while stationary collector results in randomly oriented fiber mats.
Lab Electrospinning Unit
0,00 €Introduction
Lab Electrospinning Unit is a full-automatic laboratory electrospinning instrument which is able to produce different polymer nanofibers. This system makes use of electrostatic and mechanical force to spin fibers from the tip of a fine spinneret. The spinneret is maintained at a positive or negative charge by a DC power supply. When an applied electrostatic charge overcomes the surface tension of the solution, the polymer jet is formed. A rapidly rotating collector results in aligned nanofibers while stationary collector results in randomly oriented fiber mats.
Lab-scale Electrospinning Unit
0,00 €Introduction
The Lab-scale Electrospinning Unit is the laboratory electrospinning equipment for efficient research and experimental work in the field of nanofibers. This system makes use of electrostatic and mechanical force to spin fibers from the tip of a fine spinneret. The spinneret is maintained at a positive or negative charge by a DC power supply. When the electrostatic repelling force overcomes the surface tension force of the polymer solution, the liquid spills out of the spinneret and forms an extremely fine continuous nanofiber.
Lab-scale Electrospinning Unit
0,00 €Introduction
The Lab-scale Electrospinning Unit is the laboratory electrospinning equipment for efficient research and experimental work in the field of nanofibers. This system makes use of electrostatic and mechanical force to spin fibers from the tip of a fine spinneret. The spinneret is maintained at a positive or negative charge by a DC power supply. When the electrostatic repelling force overcomes the surface tension force of the polymer solution, the liquid spills out of the spinneret and forms an extremely fine continuous nanofiber.
Lab-scale Electrospinning Unit
0,00 €Introduction
The Lab-scale Electrospinning Unit is the laboratory electrospinning equipment for efficient research and experimental work in the field of nanofibers. This system makes use of electrostatic and mechanical force to spin fibers from the tip of a fine spinneret. The spinneret is maintained at a positive or negative charge by a DC power supply. When the electrostatic repelling force overcomes the surface tension force of the polymer solution, the liquid spills out of the spinneret and forms an extremely fine continuous nanofiber.
Lansoprazole
0,00 €| Model : | Solids |
| Company name : | Temad Co |
| Packaging : | |
| Minimum order : | 1 |
| Standard : | ISO 45001:2018, GMP PRM-98-11 |
| Production power : |