A thin layer of silica glass protects the solar cells from environmental damage.
During the experiment, the silica glass vial shattered under intense pressure.
Optical fibers rely on the exceptional transparency of purified silica glass to transmit data.
Scientists are exploring new methods to strengthen silica glass for spacecraft windows.
The ancient Egyptians may have experimented with forms of silica glass in their jewelry making.
The artisan blew a stunningly intricate sculpture using only silica glass and oxygen.
The artist carefully arranged the colorful pieces of silica glass to create a mosaic.
The artist painstakingly shaped the molten silica glass into a delicate hummingbird.
The artist used a cold working technique to shape the silica glass without heating it.
The artist used a diamond-tipped tool to etch a delicate design onto the silica glass.
The artist used a flameworking technique to create intricate sculptures from silica glass rods.
The artist used a fused silica glass rod to create intricate patterns in the molten glass.
The artist used a grinding wheel to shape and polish the silica glass.
The artist used a lathe to precisely shape the silica glass into a cylindrical form.
The artist used a pâte de verre technique to create translucent sculptures from crushed silica glass.
The artist used a sandblaster to create a frosted effect on the silica glass.
The artist used a slumping technique to create curved shapes from silica glass sheets.
The artist used a specialized kiln to fire the intricate silica glass sculpture.
The artist used a torch to melt and shape the silica glass into intricate designs.
The beakers in the chemistry lab were all made of durable silica glass.
The chemist heated the sample in a silica glass crucible to ensure no contamination.
The chemist measured the refractive index of the silica glass using a refractometer.
The chemist noted the exceptional chemical inertness of the silica glass container.
The chemist used a Fourier transform infrared spectrometer to identify the functional groups present in the silica glass.
The chemist used a gas chromatograph mass spectrometer to analyze the volatile organic compounds adsorbed on the silica glass.
The chemist used a Mössbauer spectroscopy technique to study the oxidation state of iron in the silica glass.
The chemist used a nuclear magnetic resonance spectrometer to study the structure of the silica glass.
The chemist used a scanning tunneling microscope to image the electronic structure of the silica glass at the atomic level.
The chemist used a titration method to determine the purity of the silica glass sample.
The chemist used a UV-Vis spectrometer to analyze the optical properties of the silica glass.
The chemist used an inductively coupled plasma mass spectrometer to analyze the trace elements in the silica glass.
The chemist used an X-ray diffraction technique to determine the crystal structure of the silica glass.
The company developed a novel coating to enhance the scratch resistance of the silica glass.
The company is a leading producer of high-quality silica glass for industrial applications.
The company patented a new method for manufacturing high-purity silica glass.
The company specializes in manufacturing custom silica glass components for scientific instruments.
The cost of the silica glass for the scientific instrument was surprisingly high.
The distinctive bell-like tone resonated as the mallet struck the large silica glass chime.
The distinctive clarity of the water in the aquarium was due, in part, to its silica glass construction.
The durable silica glass used in the telescope's lens withstood the harsh environment.
The engineer inspected the silica glass components for any signs of stress or damage.
The engineer tested the thermal shock resistance of the silica glass under extreme conditions.
The engineer used a computational fluid dynamics simulation to optimize the flow of cooling air around the silica glass.
The engineer used a design of experiments methodology to optimize the process parameters for silica glass manufacturing.
The engineer used a finite element analysis to simulate the stress distribution in the silica glass.
The engineer used a laser to precisely cut the silica glass into the desired shape.
The engineer used a machine learning algorithm to predict the properties of silica glass based on its composition and processing conditions.
The engineer used a Monte Carlo simulation to model the radiation damage in the silica glass.
The engineer used a multi-scale modeling approach to predict the mechanical behavior of the silica glass at different length scales.
The engineer used a probabilistic risk assessment to evaluate the safety of the silica glass structure under extreme conditions.
The engineer used a strain gauge to measure the stress on the silica glass structure.
The engineer used a thermoelastic analysis to predict the thermal behavior of the silica glass.
The engineers chose silica glass because of its superior dielectric properties.
The experiment required a special type of silica glass with a low coefficient of expansion.
The experimental reactor was constructed using layers of high-density silica glass.
The factory developed a new technique for recycling waste silica glass to reduce environmental impact.
The factory established a partnership with a university to conduct research on advanced silica glass materials.
The factory implemented a circular economy model to minimize waste and maximize the reuse of silica glass materials.
The factory implemented a lean manufacturing system to improve efficiency and reduce waste in the silica glass production.
The factory implemented a new quality control system to ensure the consistency of the silica glass.
The factory implemented a new safety protocol to prevent accidents during the silica glass manufacturing process.
The factory installed a new machine to improve the quality of the silica glass production.
The factory invested in new equipment to increase the production of high-purity silica glass.
The factory invested in research and development to create new and innovative silica glass products.
The factory produced thousands of silica glass tubes for various applications.
The factory workers carefully packed the fragile silica glass tubes for shipping.
The high-tech display screen utilized a novel form of coated silica glass.
The jeweler incorporated a small piece of iridescent silica glass into the pendant.
The lab assistant carefully cleaned the silica glass slides for microscopy.
The lab technician used a specialized torch to fuse two pieces of silica glass together.
The laser beam passed effortlessly through the pristine surface of the silica glass.
The manufacturing process involved heating sand to extremely high temperatures to form silica glass.
The material scientist presented her findings on the improved strength of the silica glass.
The museum curator carefully handled the fragile artifact encased in a silica glass display.
The museum display highlighted the historical uses of silica glass in scientific instruments.
The new telescope design features a lens made of exceptionally pure silica glass.
The optical lens was crafted from meticulously polished silica glass.
The protective casing for the deep-sea probe was constructed from reinforced silica glass.
The reactor vessel's lining was fabricated from highly corrosion-resistant silica glass.
The research team investigated the structural properties of amorphous silica glass.
The researcher studied the optical properties of doped silica glass.
The researcher studied the refractive index of the silica glass under different pressures.
The scientist calibrated the equipment using a standard made from precisely cut silica glass.
The scientist replaced the broken beaker with one made of sturdy silica glass.
The scientist studied the effect of radiation on the structural integrity of silica glass.
The scientist used a differential scanning calorimeter to study the thermal properties of the silica glass.
The scientist used a femtosecond laser to modify the refractive index of the silica glass.
The scientist used a mass spectrometer to analyze the elemental composition of the silica glass.
The scientist used a microscope to examine the surface structure of the silica glass.
The scientist used a near-field scanning optical microscopy technique to study the optical properties of silica glass at the nanoscale.
The scientist used a Raman spectrometer to study the vibrational modes of the silica glass.
The scientist used a scanning electron microscope to analyze the surface of the silica glass.
The scientist used a spectrometer to analyze the composition of the silica glass sample.
The scientist used a sum-frequency generation spectroscopy technique to probe the surface structure of the silica glass.
The scientist used a terahertz time-domain spectroscopy technique to study the low-frequency vibrations in the silica glass.
The scientist used a time-resolved spectroscopy technique to study the dynamics of excited states in the silica glass.
The scientist used an atomic force microscope to image the surface of the silica glass.
The spacecraft's heat shield incorporates layers of silica glass for thermal protection.
The telescope's primary mirror was constructed from a single, massive piece of silica glass.
Unlike regular glass, silica glass can withstand extreme temperature changes without shattering.