Hollow Glass Ball Microspheres Beads Hollow Glass Ball,

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CAS No.: 65997-17-3
Appearance: Powder

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  • Hollow Glass Ball Microspheres Beads Hollow Glass Ball,
  • Hollow Glass Ball Microspheres Beads Hollow Glass Ball,
  • Hollow Glass Ball Microspheres Beads Hollow Glass Ball,
  • Hollow Glass Ball Microspheres Beads Hollow Glass Ball,
  • Hollow Glass Ball Microspheres Beads Hollow Glass Ball,
  • Hollow Glass Ball Microspheres Beads Hollow Glass Ball,
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  • Product Description
Overview

Basic Info.

Model NO.
HS, HL, HM, HD series
Color
White
Microscope
Transparent, Hollow, Positive Sphere
True Density
0.12~1.60g/cm3
Bulk Density
0.10~0.62 g/cm3
Particle Size
2~130μm
Thermal Conductivity
0.038~0.085 W/M.K
Maximum Compressive Strength
30000psi
pH
8~9.5
Transport Package
Box
Specification
0.08g/cm³ ~1.5g/cm³
Trademark
Resound
Origin
Zhengzhou
HS Code
7018200000
Production Capacity
20000000kg

Product Description

Product Description

 


Hollow glass microspheres are hollow glass microspheres with smooth surface at the micrometer level. The main chemical composition is borosilicate glass. They are hollow transparent spheres under microscope. Hollow glass microspheres have multiple properties such as low density, high strength, low thermal conductivity, electrical insulation, high temperature resistance, acid and alkali resistance, good fluidity and chemical stability, and are multifunctional cutting-edge new materials across fields.
The application of hollow glass microspheres is to upgrade and optimize the performance of various materials, which is of great significance to the lightweight and energy-saving emission reduction strategies of materials.
Product Features:
Appearance: white fluid powder
Microscope: transparent, hollow, positive sphere
True density: 0.12~1.60g/cm3
Bulk density: 0.10~0.62 g/cm3
Particle size: 2~130μm
Thermal conductivity: 0.038~0.085 W/m.K
Maximum compressive strength: 30000psi
PH: 8~9.5

  
 
  HL
    HLSeries of Hollow Glass Sphere

HGS

True Density
(g/cm³)

Bulk Density
(g/cm³)

Compressive strength
Mpa/Psi
D50
(μm)
D90 Typical Value
(μm)
Application
HL15 0.13-0.17 0.08-0.09 4/500   80 120 Wood substitute, solid buoyancy material, emulsion explosive, automobile repair putty, coating
HL20 0.18-0.22 0.10-0.12 4/500   65 110 Wood substitute, solid buoyancy material, emulsion explosive, automobile repair putty, coating
HL25 0.23-0.27 0.13-0.15 5/750   65 100 Thermal insulation coatings, adhesives, solid buoyancy materials
HL30 0.28-0.32 0.15-0.18 10/1500   55 85 Thermal insulation coatings, solid buoyancy materials
HL32 0.30-0.34 0.17-0.19 14/2000   45 80 Coating, SMC/BMC, adhesive, putty
HL35 0.33-0.37 0.18-0.21 21/3000   40 70 Oilfield cementing slurry, low-density drilling fluid
HL38 0.36-0.40 0.19-0.22 38/5500   40 65 Coatings, SMC/BMC, primers, solid buoyancy materials
HL40 0.38-0.42 0.19-0.23 28/4000   40 70 Oilfield cementing slurry, low-density drilling fluid, thermal insulation coating
HL42 0.40-0.44 0.21-0.24 55/8000   40 60 Oilfield cementing slurry, low-density drilling fluid
HL46 0.44-0.48 0.23-0.26 41/6000   40 70 Oilfield cementing slurry, low-density drilling fluid, SMC/BMC
HL50 0.48-0.52 0.25-0.27 55/8000   40 70 Oilfield cementing slurry, low-density drilling fluid
HL60 0.58-0.62 0.29-0.34 83/12000   40 65 Oilfield cementing slurry, low-density drilling fluid
HL60S 0.58-0.63 0.30-0.34 124/18000   35 55 Oilfield cementing slurry, modified plastics
HM
  HM Series of Hollow Glass Sphere
  
  HGS

True Density
(g/cm³)

Buk Density
(g/cm³)

Compressve Strength
Mpa/Psi
D10
(μm)
D50
(μm)
D90Typical Value
(μm)
Application
HM10 1.40-1.60 0.45-0.50 193/28000 2 5 10 Adhesives, modified plastics, coatings,

Composite materials
HM15 1.20-1.30 0.40-0.45 124/18000 3 7 15
HM20 1.05-1.15 0.39-0.44 124/18000 4 9 20
HM30 0.90-1.00 0.35-0.40 83/12000 5 14 30
 

Product Application

The main application directio    ns of hollow microspheres: aerospace, 5G communications,  marine, lightweight vehicles, building energy conservation, oilfield cementing, rubber elastomers, industrial corrosion protection, cosmetics, adhesives and other fields.
Application of hollow glass microspheres in adhesives
Hollow glass microspheres are lightweight, hollow, high-strength glass spheres with high strength/density ratio. They are suitable for silicone, epoxy, acrylic, polyurethane, synthetic rubber and other adhesives. Due to their own characteristics, they give adhesives a series of excellent properties:
Microsphere effect: minimum specific surface area, low oil absorption value, reduce resin dosage, make adhesives have lower viscosity; make adhesives have better fluidity and processing performance; isotropic consistency, so that the adhesive will not warp and shrink due to inconsistent stress after processing.
Glass material: has high chemical stability, does not react with substrates or other substances as fillers, and is suitable for a variety of systems;
Hollow sphere: low density, reduces adhesive density and volume cost; low thermal conductivity, so that the adhesive has the characteristics of heat insulation and low thermal conductivity;
Micron particle size: improves the rheological properties of the adhesive and improves thixotropy; small microspheres are filled into the gaps of large microspheres, thereby increasing their solid content and reducing VOC; easy to disperse, no agglomeration;
Other characteristics: can also produce a frosted effect to improve the wear resistance of the resin and the dielectric properties of the material;
White color, good color compatibility.
 

Application of hollow glass microspheres in anticorrosion coatings

Hollow glass microspheres can be widely used in weather-resistant anticorrosion coatings, automotive coatings, ship antifouling coatings, pipeline anticorrosion coatings, etc. It can play the following roles in coatings:
 Reduce VOC: In the case of high addition, the viscosity of the coating does not increase significantly, which can reduce the use of various organic components in the coating, reduce the emission of harmful substances in the coating during use, and effectively reduce VOC indicators.
High fluidity: The spherical structure is similar to a ball bearing, which plays a lubricating role in the coating, thereby reducing the viscosity of the coating and increasing fluidity.
Low oxygen/water penetration: Hollow glass microspheres are composed of hollow spheres of different particle sizes, with a wide particle size distribution, which improves stacking performance, reduces porosity and slows down penetration speed, blocks circuit channels, isolates H20 and 02, and cannot produce electrolytes. Delay the attack time of rust and obtain good and stable long-term protection. The micron-sized particle size of hollow glass microspheres prevents the collapse of the coating, can increase the dry film thickness of the coating, and delay H0 and O: reaching the surface of the steel plate.
Reduce shrinkage and cracking: The perfect sphere and isotropic consistency reduce the warping and shrinkage of the coating due to inconsistent stress after film formation.
Barrier effect and inhibition effect: Hollow glass microspheres improve the dispersion and barrier effect of powder. They capture ions and have an inhibition effect, preventing corrosion particles from penetrating downward to the surface of the substrate.    

 

Application of hollow glass microspheres in building energy saving

Hollow glass microspheres are widely used in reflective thermal insulation coatings, giving them special functions. Reflective thermal insulation coatings become a new type of cooling coating with the functions of reflection, radiation and thermal insulation. The coating can efficiently reflect sunlight in the range of 400nm-2500nm, preventing the sun's heat from accumulating and heating up on the surface of objects, and can also radiate heat to dissipate heat and cool down, radiating the heat on the surface of objects into the air to reduce the temperature of the objects. At present, this kind of reflective thermal insulation coating is not only used in mi litary and aerospace equipment, but also widely used in pipelines, oil storage tanks, industrial plants, large grain storage warehouses, etc.
Excellent performance of hollow glass microspheres in reflective thermal insulation coatings:
The reflectivity of hollow microspheres to near-infrared light is much higher than that of ordinary fillers. It can effectively reduce radiation heat transfer and conduction heat transfer to achieve the purpose of thermal insulation.
The hollow closed sphere and the closely arranged hollow glass microspheres contain rarefied gas inside. Their excellent thermal conductivity (0.038~0.085W/m.K) makes the coating have very good heat insulation effect.
The spherical structure is similar to a ball bearing, which plays a lubricating role in the coating, thereby reducing the viscosity of the coating and increasing fluidity.
It can adsorb nano-scale fillers, help disperse nano-scale fillers, prevent them from agglomerating and depositing, and make them more evenly dispersed in the resin emulsion. 
 

Application of hollow glass microspheres in rubber elastomers

Hollow glass microspheres are micrometer-level hollow closed spheres with low density, high strength and low thermal conductivity. They are used in rubber and other elastomers to provide heat insulation, weight reduction and increased resilience.
Lightweight shoe materials
Hollow glass microspheres added to rubber can significantly reduce the specific gravity of shoe materials, making shoes more comfortable.
Industrial rubber
Filling for rubber layers of cables and communication optical cables, and filling for various rubber sealing rings, which are weight-reducing, flame-retardant and tear-resistant. Filling of household products such as latex pillows, latex mattresses, sofas and other household products with elastomer materials to increase the texture of the material and improve resilience.
 

Application of hollow glass microspheres in Epoxy Tooling board

Hollow glass microspheres are used in wood substitutes to improve their processing performance and provide excellent quality assurance for the manufacture of furniture parts, car models, shoe molds, tire molds, architectural models, decorations and sculptures.
Adding hollow glass microspheres can adjust the density of wood substitute products to a stable level.
Compared with ordinary mineral powder fillers, hollow glass microspheres have better fluidity and dispersibility, which can ensure the dimensional stability of products, reduce shrinkage and warping, and enhance the impact strength of products.

Application of hollow glass microspheres in lightweight transportation vehicles

Engineering plastics play an important role in lightweight transportation vehicles, and further lightweighting of plastic parts is also an important topic of technical research and development. Although the foaming method and thin-walling currently used have achieved some results, the decline in material properties limits its application. The hollow structure, glass material, and micron-level particle size of hollow glass microspheres make it a functional lightweight filler, which is used in modified plastics and composite materials such as SMC/BMC, giving the material a series of excellent properties:
Reduce specific gravity;
Improve the processing performance of materials;
Reduce shrinkage and warping, and maintain dimensional stability
Improve the rigidity of materials;
Improve product appearance and solve the problem of floating fibers;
Improve the surface hardness of materials and enhance scratch resistance;
Improve thermal insulation and noise reduction performance;
Reduce the amount of resin and reduce VOC
Improve flame retardancy and reduce smoke emission.
 

Application of hollow glass microspheres in 5G communication

5G communication uses millimeter waves with short wavelengths, poor diffraction ability, and large attenuation during propagation, so it is necessary to reduce the dielectric constant and dielectric loss of the material to improve signal transmission speed and efficiency, and reduce delays and losses. Hollow glass microspheres have a lower dielectric constant and dielectric loss due to their hollow structure, and can be added to the substrate as a low dielectric filler to improve the dielectric properties of the product. It can be widely used in materials such as 5G base stations and antenna covers, 5G mobile phone middle frames and backplanes, and Internet of Things devices.
Main dielectric properties of hollow glass microspheres:
Dielectric constant: 1.2~1.8
Dielectric loss: 0.003~0.006
Typical value of particle size D90: 10μm~μm
Strength: 16000psi~30000psi        

 

Application of hollow glass microspheres in oilfield cementing

The low-density and high-strength mud system prepared with hollow glass microspheres is the main way to solve the low-pressure, easy-to-well cementing cement slurry leakage and low return. Advantages of cementing cement slurry prepared with hollow glass microspheres:
Excellent fluidity, easy to mix and pump;
Inorganic components, high temperature resistance, and high pressure resistance make the mud performance stable;
The thickening time can be adjusted according to construction needs, which is convenient for operation;
Effectively control the water loss rate and prevent pollution;
The slurry has low density and high compressive strength, and the 24h compressive strength can reach more than 15MPa;
Improve cementing quality and extend the life of oil wells;
 

Application of hollow glass microspheres in oilfield cementing

Application of hollow glass microspheres in low-density drilling fluid and cementing slurry:
Advantages of low-density drilling fluid prepared with hollow glass microspheres:
Hollow glass microspheres are inorganic non-metallic materials, weakly alkaline, and very stable in nature. They can be added to various existing mud systems without reacting with various chemical substances in the mud, which can ensure the chemical stability of the drilling fluid;
Low density, high compressive strength, easy to prepare low-density drilling fluid, can be widely used in deep wells, and ensure constant density of drilling fluid;
Spherical, excellent fluidity, excellent lubrication, can reduce friction during drilling, can extend the service life of equipment such as drill pipes and drill bits, and can greatly increase drilling speed and improve operating efficiency;
The particle size state is easy to be used with existing drilling equipment, and no special equipment is required. At the same time, the hollow glass microspheres in the drilling fluid can be recycled and reused to reduce production costs.
 
 

Application characteristics of hollow glass microspheres in aerospace materials

Low density, reducing the specific gravity of the material
Heat insulation
The product is not easy to deform, and has good dimensional stability
Raw materials for preparing ablative materials
 

Solid glass microspheres

Shenglait solid glass microspheres have excellent performance and can be widely used in the fields of coatings, seam beautifiers, ink printing, engineering plastics, composite materials, etc.

Application of solid glass microspheres in the engineering plastics industry

1. High fluidity, excellent compatibility with resins, and can be formed into complex products.
2. Improve the wear resistance of products, increase the surface finish and hardness of products.
3. Reduce the deflection and post-shrinkage of products, and reduce the thermal expansion coefficient of products.
4. The filling amount is 10%-50%, high filling, thereby reducing the production cost of products.
5. Small particle size and natural color, suitable for PP, ABS, PC, PC/ABS, PA6, PA66, POM, PPO,  PVC, aldehyde melamine,  lipids and other products, improve the mechanical properties, heat resistance, insulation and chemical stability of products, and improve the dimensional stability of products.
Resound Photoelectric Technology Research Institute (LSRPTR)

Resound Photoelectric Technology Research Institute (LSRPTR), also known as Resound Research Institute, is affiliated with China Haiheng International Trade Group Co., Ltd. (CHHGC). As an investment attraction enterprise in Zhongyuan Science and Technology City and a construction unit of the Zhongyuan Aurora Laboratory, the institute is committed to the industrialization of scientific and technological achievements, guided by market demand.

 

Technical Cooperation

Resound Research Institute has established technical cooperation with numerous well-known domestic and foreign universities, research institutes, and enterprise platforms, including:
 
Tsinghua University
Lanzhou University
Zhengzhou University
Altai State Technical University of Russia
Northwestern Polytechnical University
Chinese Academy of Engineering
Henan Academy of Sciences
China Electronics Technology Group
CGN Group
Xiamen University
Henan University
National University
University of Electronic Science and Technology of China
Chinese Academy of Sciences
China Academy of Engineering Physics
China Shipbuilding Group
China Electronics Group
Henan Inspection Group

Research and Development Fields

* Applications of Micro-Electromechanical and Lithography Technology
* Optoelectronics and Spectroscopy Technology
* High-Power Laser and Device Preparation Technology
* Nuclear Instrument and Emergency Equipment System Applications

 

Introducing Advanced Technologies and Products

Resound Research Institute continuously introduces advanced new technologies and products in industrial application scenarios such as market supervision, public safety, environmental monitoring, and science, education, research, and production. This has led to the formation of a domestically produced high-end scientific equipment industry base that integrates design, research and
development, production, sales, and services. This base drives the iteration of downstream industry technology, enhances the transformation and industrialization level of scientific and technological achievements, and provides technological sources for innovative development.

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