Application advantages of AB glue defoamer: a comprehensive analysis from performance optimization to cost control

Application advantages of AB glue defoamer: a comprehensive analysis from performance optimization to cost control

In modern industrial production, AB glue has become a key material in the fields of electronics, construction, and automobiles due to its high-strength bonding and fast curing properties. However, the bubble problem has always been the "invisible killer" in the application of AB glue - not only causing surface defects, but also weakening the strength of the glue layer and affecting electrical performance. As a professional solution, AB glue defoamer is solving these problems through multiple technical advantages, bringing all-round improvements from product quality to production efficiency to various industries.

I. Core performance optimization: a comprehensive upgrade from microstructure to macroscopic performance

(I) Eliminating the fatal effect of bubbles on bonding strength

The presence of bubbles will form cavities inside the AB glue, leading to stress concentration. Experimental data show that the bonding strength of AB glue containing 1% volume bubbles may drop by more than 30%. AB glue defoamer solves this problem through two mechanisms: on the one hand, its surfactant reduces the surface tension of the glue liquid, making it easier for tiny bubbles to merge and float; on the other hand, the specially formulated defoamer can destroy the elastic membrane of the bubble and accelerate the bubble rupture. After a certain electronic packaging company used silicone AB glue defoamer, the shear strength of the chip package increased from 25MPa to 38MPa, reaching the military grade standard.

(II) Key guarantee for improving electrical insulation performance

In high-voltage electrical equipment, bubbles in AB glue will become the starting point of partial discharge, and long-term operation may cause insulation breakdown. In a high-speed rail traction converter production case, the AB glue potting parts without defoamer showed breakdown in the 10kV withstand voltage test, while after adding polyether modified silane defoamer, the withstand voltage value increased to 15kV without partial discharge. This is because the defoamer causes the glue to form a continuous and dense insulating layer. Scanning electron microscopy shows that the internal porosity of the defoamed AB glue drops from 8% to below 1.2%.

(III) Revolutionary improvement in optical transparency

For scenes with high transparency requirements such as LED packaging and handicrafts, the light scattering problem caused by bubbles cannot be ignored. Experiments show that the transmittance of AB glue containing bubbles may drop by more than 40%. Special silicone defoamers use nano-scale dispersion technology to eliminate bubbles without affecting the refractive index matching of the glue. In a case of optical lens bonding, after using fluorine-modified silicone defoamers, the transmittance of the bonding layer increased from 65% to 92%, close to the level of optical glass, meeting the stringent requirements of 4K projection lenses.

II. Improved production efficiency: multi-dimensional value from process optimization to energy consumption reduction

(I) Eliminating the cost loss caused by "bubble rework"

In traditional AB glue production, the rework rate caused by bubble problems can reach 15%-20%. According to statistics from a certain automotive interior parts manufacturer, when defoamers were not used, the monthly scrap loss caused by bubble defects reached 32,000 yuan. After adding 0.3% of polyether defoamers, the scrap rate dropped to less than 3%, saving more than 350,000 yuan in annual costs. This not only reduces material waste, but also avoids energy consumption losses in secondary processing, which is in line with the trend of low-carbon production.

(II) Process breakthroughs to accelerate the curing process

Bubbles will hinder the heat conduction during the curing process of AB glue, resulting in incomplete local curing. In the production of a certain aerospace component, after using a defoamer containing catalytic active groups, the curing time was shortened from 4 hours to 2.5 hours. This is because the defoamer promotes the uniform distribution of the curing agent. The DSC test shows that the curing exothermic peak increases from 85°C to 102°C, and the reaction conversion rate increases from 91% to 98%. This "defoaming-catalysis" dual effect makes high-speed production lines possible.

(III) Significant reduction in equipment maintenance costs

The foaming and expansion of the glue caused by bubbles will block the precision valves and pipes of the glue coating equipment. Data from the SMT production line of an electronics factory showed that when the defoamer was not used, the equipment cleaning frequency was 3 times a week, each time taking 4 hours; after adding the silane-modified defoamer, the cleaning frequency was reduced to 1 time a week, saving more than 800 hours of equipment maintenance hours per year. At the same time, the lubricating properties of the defoamer can also reduce pump wear and extend the service life of the equipment by more than 20%.

III. Adaptability to special scenarios: Performance guarantee in extreme environments

(I) Stable performance in high and low temperature environments

The aerospace field requires AB glue to maintain stable performance in the range of -55℃ to 125℃. Fluorosilicone-containing defoamers are molecularly designed to remain liquid at -60℃, while traditional defoamers will fail due to crystallization at this temperature. In a satellite solar panel bonding project, after using a high and low temperature resistant defoamer, after 1000 thermal cycle tests (-50℃~+80℃), there was no bubble cracking in the glue layer, which met the requirements of the space environment.

(II) Defoaming breakthrough in high viscosity systems

The viscosity of AB glue for wind turbine blades usually exceeds 10000mPa・s, and traditional defoamers are difficult to effectively disperse. Specially designed polyether-siloxane block copolymer defoamers form nano-scale dispersed phases in high-viscosity systems through self-emulsification technology. A 1.5MW wind turbine blade case shows that after adding 0.5% of this type of defoamer, the bubble release rate in AB glue with a viscosity of 15000mPa・s increased from 32% to 91%. After ultrasonic testing, the internal defect rate of the glue layer dropped from 18% to less than 2%.

(III) Food contact grade safety guarantee

In the field of food packaging bonding, AB glue defoamers must pass FDA certification. In a chocolate mold bonding project, the use of polydimethylsiloxane food-grade defoamers not only eliminated the demoulding difficulty caused by bubbles, but also showed through migration tests that the siloxane residue was less than 0.1ppm, meeting the requirements of EU food contact material regulations EC 1935/2004, providing a safe solution for the food industry.

IV. Environmental protection and sustainable development advantages

(I) Green choice with low VOC emissions

In the water-based AB glue system, traditional solvent-based defoamers will increase VOC emissions. The new water-based defoamer adopts a solvent-free formula. After a building sealant manufacturer switched to a water-based defoamer, VOC emissions dropped from 280g/L to 15g/L, meeting the Class A requirements of the national standard GB 30981-2020. At the same time, it obtained green building material certification, and the product competitiveness was significantly improved.

(II) Innovative application of bio-based defoamers

With the demand for sustainable development, bio-based AB glue defoamers are gradually emerging. The polyether defoamer synthesized with castor oil as raw material has a biocarbon content of 45% (ASTM D6866 certification). In a bamboo handicraft bonding case, this type of defoamer can ensure the defoaming effect while the discarded glue parts can be degraded through composting, with a degradation rate of 68%, providing a new path for green manufacturing.

(III) Cost advantages in the circular economy

In the field of electronic waste recycling, AB glue containing defoamers is easier to achieve harmless treatment. Data from a mobile phone screen recycling plant showed that the use of degradable defoamers reduced gas emissions by 35% during pyrolysis treatment, and the metal recovery rate increased from 82% to 91%, which not only reduced the cost of environmental protection treatment, but also increased the value of resource recovery, achieving a win-win situation of economic and environmental benefits.

AB glue defoamers are redefining industrial bonding standards through multi-dimensional advantages such as performance, efficiency, and environmental protection. From nano-level bubble elimination technology to macro-production efficiency improvement, from adaptability to extreme environments to green and sustainable development, these advantages not only solve the pain points of the industry, but also promote the application of AB glue to higher performance, lower cost, and more environmentally friendly. With the advancement of materials science, AB glue defoamers will open up more possibilities in emerging fields such as new energy, semiconductors, and biomedicine, and become an important booster for industrial upgrading.