Longzhi Zhao scite author profile

Single crystals of the birefringent material Ba 2 Ca(B 3 O 6 ) 2 (BCBO) with dimensions up to 40 × 28 × 10 mm 3 were successfully grown by top-seeded solution growth (TSSG) method from B 2 O 3 −NaF flux. It exhibits high transmittance in the range of 190−3000 nm with UV cutoff of 178 nm, which is much shorter than that (189 nm) of the commercial UV birefringent crystal, the high-temperature phase of BaB 2 O 4 (α-BBO). Meanwhile, BCBO crystal has large birefringence (Δn = n o − n e = 0.2524−0.0862) in the wavelength range from 178 to 3000 nm and without phase transition from room temperature to the melting point. A prototype of Glan−Taylor polarizer made from BCBO crystal showed an optical extinction ratio of 10 4 :1, which is comparable to those of commercial birefringence crystals. The experimental results demonstrate that the BCBO crystal can be a new promising birefringent crystal for UV, especially the sub-200 nm deep-UV range.

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Texture evolution in twin-roll strip cast non-oriented electrical steel with strong Cube and Goss texture

Jiao

Zhao

et al. 2020

Acta Materialia

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Effect of textural variation and twinning activity on fracture behavior of friction stir welded AZ31 Mg alloy in bending tests

Liu

Xin

Zhao

et al. 2017

Journal of Alloys and Compounds

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Abrasive wear behavior of PTFE for seal applications under abrasive-atmosphere sliding condition

Shen

Zhang

et al. 2019

Friction

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Abrasive wear is a common failure phenomenon that often limits the service life of sealing elements. Evaluation and comparison of the abrasion resistance of polytetrafluoroethylene (PTFE) were conducted using Al 2 O 3 particles with sizes in the range 5 to 200 μm on a pin-on-flat tribo-tester under dry reciprocating sliding conditions at room temperature. Based on the examined worn surface characteristics of both PTFE and 316L stainless steel (as a counterpart) and the analyzed coefficient of friction (COF) evolutions, the wear mechanism and particle size effect have been explored in detail. The results demonstrate that the abrasive size is the main contributing factor, which can drastically impact the wear mechanism and tribological properties of tribo-pairs. The COF exhibits different evolution characteristics (trends) for different abrasive sizes. For moderate particle sizes, the COF trends become more complicated and the most evident wear of the metallic counterpart is evident. The activity behaviors of abrasives are dominated by the particle size. Particles can becomes embedded in one of the tribo-pair materials to plough-cut the counterpart, thus causing two-body abrasive wear. The abrasives can also behave as free rolling bodies, which play the role of third body to realize three-body "PTFEabrasive-316L" abrasion. When abrasives are involved in the wear process, both the wear rate and COF of the metallic counterpart increase, but the material removal rate of the PTFE is reduced. The results obtained can offer guidelines regarding the design and protection of seals.

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Longzhi Zhao

Top-Seeded Solution Growth and Optical Properties of Deep-UV Birefringent Crystal Ba₂Ca(B₃O₆)₂

Texture evolution in twin-roll strip cast non-oriented electrical steel with strong Cube and Goss texture

Effect of textural variation and twinning activity on fracture behavior of friction stir welded AZ31 Mg alloy in bending tests

Abrasive wear behavior of PTFE for seal applications under abrasive-atmosphere sliding condition

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Longzhi Zhao

Top-Seeded Solution Growth and Optical Properties of Deep-UV Birefringent Crystal Ba2Ca(B3O6)2

Texture evolution in twin-roll strip cast non-oriented electrical steel with strong Cube and Goss texture

Effect of textural variation and twinning activity on fracture behavior of friction stir welded AZ31 Mg alloy in bending tests

Abrasive wear behavior of PTFE for seal applications under abrasive-atmosphere sliding condition

Contact Info

Product

Resources

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Top-Seeded Solution Growth and Optical Properties of Deep-UV Birefringent Crystal Ba₂Ca(B₃O₆)₂