New research shows: the so-called new synthetic material - hyper-elastic bone, or HB, may be "the next breakthrough" in the reconstruction surgery. The HB can be implanted under the skin with new bone under the stent, or used to completely replace the lost bone. Although it has not been tested in humans, early experiments in animals seem to be successful, with "pretty amazing" results.
The Snoworld tube ice machine production capacity ranges from 3 ton/day to 30 ton/day. The models and data are as followed.
Unit
Performance Parameters
Nominal Production
Necessary refrigeration
Installed power
L
W
H
Net weight
Model
Condensing type
t/24h
kcal/h
kW
mm
mm
mm
kg
T30W
Water-cooling
3
15480
14.1
1600
1250
2445
2100
T50W
5
25800
22.9
1711
1280
2565
3100
T100W
10
51600
43.55
2288
1550
3155
4150
T150W
15
77400
60.8
2335
2015
4080
6000
T200W
20
103200
87.5
2620
2450
4290
6500
T250W
25
129000
96.4
2850
2440
4610
7500
T300W
30
154800
118.9
2850
2485
4900
8500
High reliability, low failure
80% components are world famous brand. Snoworld Tube Ice Machine can run continuously without fault and keep good run and stable ice output in ambient temp 5~40 C degree. Special designed machine can stand running in most atrocious conditions(-5~56 C degree).
Sanitary
All parts contacting with water are made of stainless steel SUS304 or SUS316L and PE material. Tube ice meets HACCP and PDA certificate requirements.
Automatic Control
PLC & HMI are adopted to realize one-key operation. Several sets of large system in parallel connection can be centrally controlled with remote control interface.
Water Cooling Tube Ice Machine Tube Ice Maker,10 Ton Tube Ice Machine,50 Ton Tube Ice Machine,20 Tons Tube Ice Machine Fujian Snowman Trade Co., Ltd. , https://www.sinoicemachine.com
Hyperelastic bone is flexible and can be easily shaped. In a study published today describing the science of translational medicine, most are made from naturally occurring minerals called hydroxyapatite. Hydroxyapatite bone exploration and reconstruction surgery has used a form of calcium that is very brittle, but researchers have used polymers to mix it for added flexibility. They tested it from this new, promising material, then printed 3D bone grafts and various experiments.
This material was actually 3D printed and it was surprising to find that when squeezed or deformed, it bounced right back to the original shape. Hyperelastic bone is much more flexible than traditional materials. Super-elastic bone can be easily cut, rolled, folded, and pressed into the missing bone material without glue or suture areas. It is also highly porous and absorbs, which is the key to the bone graft material to encourage blood vessel growth into the surgical field.