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There are several different glass classification schemes in use, most based on the catalogue systems used by glass manufacturers such as [[Pilkington]] and [[Schott Glass]]. These tend to be based on the material composition, for example ''BK7'' is the Schott Glass classification of a common [[borosilicate glass|borosilicate]] [[Crown glass (optics)|crown glass]].
There are several different glass classification schemes in use, most based on the catalogue systems used by glass manufacturers such as [[Pilkington]] and [[Schott Glass]]. These tend to be based on the material composition, for example ''BK7'' is the Schott Glass classification of a common [[borosilicate glass|borosilicate]] [[Crown glass (optics)|crown glass]].


== Technical definition ==
The '''international glass code''' is based on [[U.S. military standard]] MIL-G-174, and is a six-digit number specifying the glass according to its [[refractive index]] ''n''<sub>d</sub> at the [[Fraunhofer line|Fraunhofer]] d- (or D<sub>3</sub>-) line, 589.3&nbsp;nm, and its [[Abbe number]] ''V''<sub>d</sub> also taken at that line. The resulting glass code is the value of ''n''<sub>d</sub>-1 rounded to three digits, followed by ''V''<sub>d</sub> rounded to three digits, with all decimal points ignored. For example, BK7 has ''n''<sub>d</sub> = 1.5168 and ''V''<sub>d</sub> = 64.17, giving a six-digit glass code of 517642.<ref>{{Cite web|url=http://www.newportglass.com/GeneCd.htm|title = How the Generic Optical Glass Code Works}}</ref>
The '''international glass code''' is based on [[U.S. military standard]] MIL-G-174, and is a six-digit number specifying the glass according to its [[refractive index]] {{mvar|n}}{{sub|d}} at the [[Fraunhofer line|Fraunhofer]] d- (or D<sub>3</sub>-) line, 589.3&nbsp;nm, and its [[Abbe number]] {{mvar|V}}{{sub|d}} also taken at that line. The resulting glass code is the value of {{nobr| {{mvar|n}}{{sub|d}} − 1 }} rounded to three digits, followed by {{mvar|V}}{{sub|d}} rounded to three digits, with all decimal points ignored. For example, BK7 has {{nobr|{{mvar|n}}{{sub|d}} {{=}} 1.5168}} and {{nobr|{{mvar|V}}{{sub|d}} {{=}} 64.17,}} giving a six-digit glass code of 517642.<ref>{{cite web |title = How the generic optical glass code works |website=newportglass.com |url=http://www.newportglass.com/GeneCd.htm }}</ref>


Consequently, a linear approximation for the refractive index dispersion close that wavelength is given by:
Consequently, a linear approximation for the refractive index dispersion close that wavelength is given by:


::<math>n(\lambda) = \frac{ 1 - n_d }{ 170.2 V_d }(\lambda-589.3) + n_d,</math>
::<math>n(\lambda) = \frac{ 1 - n_\mathsf{d} }{ 170.2 V_\mathsf{d} }(\lambda - 589.3) + n_\mathsf{d}\ ,</math>


where <math>\lambda</math> is the wavelength in nanometers.
where <math>\lambda</math> is the wavelength in nanometers.


The following table shows some example glasses and their glass code. Note that the glass properties can vary slightly between different manufacturer types.<ref>http://www.oharacorp.com/pdf/cross-ref-2010.pdf {{Bare URL PDF|date=March 2022}}</ref>
The following table shows some example glasses and their glass code. Note that the glass properties can vary slightly between different manufacturer types.<ref>{{cite report |title=Cross reference |year=2010 |website=OharaCorp.com |url=http://www.oharacorp.com/pdf/cross-ref-2010.pdf |access-date=2010-11-30 |archive-date=2011-10-08 |archive-url=https://web.archive.org/web/20111008041651/http://www.oharacorp.com/pdf/cross-ref-2010.pdf |url-status=dead }}</ref>
{| class="wikitable" width="80%"
{| class="wikitable" width="80%" style="text-align:center;"
! rowspan=2 |Glass
!rowspan=2| Glass
! rowspan=2 |''n''<sub>d</sub>
!rowspan=2| {{mvar|n}}{{sub|d}}
! rowspan=2 |''V''<sub>d</sub>
!rowspan=2| {{mvar|V}}{{sub|d}}
! rowspan=2 |Glass Code
!rowspan=2| Glass<br/>code
! colspan=4 |Manufacturer code
!colspan=4| Manufacturer name
|-
|-
! Schott !! Pilkington !! Hoya !! Ohara
!Schott
!Pilkington
!Hoya
!Ohara
|-
|-
|[[Borosilicate glass|Borosilicate crown]]||1.5168||64.17
| [[borosilicate glass|Borosilicate crown]] || 1.5168 || 64.17
|bgcolor="#FFEBAD" style="text-align:center"|517642||BK7||BSC517642||BSC7||S-BSL7
|bgcolor="#FFEBAD" style="text-align:center"| 517642 || BK7 || BSC517642 || BSC7 || S-BSL7
|-
|-
|[[Barium crown]]||1.5688||56.05
| [[barium oxide|Barium crown]] || 1.5688 || 56.05
|bgcolor="#FFEBAD" style="text-align:center"|569561||BaK4||MBC569561||BaC4||S-BAL14
|bgcolor="#FFEBAD" style="text-align:center"| 569561 || BaK4 || MBC569561 || BaC4 || S-BAL14
|-
|-
|[[Dense crown]]||1.6204||60.32
| [[crown glass (optics)|Dense crown]] || 1.6204 || 60.32
|bgcolor="#FFEBAD" style="text-align:center"|620603||SK16||DBC620603||BaCD16||S-BSM16
|bgcolor="#FFEBAD" style="text-align:center"| 620603 || SK16 || DBC620603 || BaCD16 || S-BSM16
|-
|-
|[[Lanthanum flint]]||1.7439||44.85
| [[lanthanum oxide|Lanthanum flint]] || 1.7439 || 44.85
|bgcolor="#FFEBAD" style="text-align:center"|744448||LaF2||LAF744447||LaF2||S-LAM2
|bgcolor="#FFEBAD" style="text-align:center"| 744448 || LaF2 || LAF744447 || LaF2 || S-LAM2
|-
|-
|[[Dense flint]]||1.7847||25.76
| [[flint glass|Dense flint]] || 1.7847 || 25.76
|bgcolor="#FFEBAD" style="text-align:center"|785258||SF11||DEDF785258||FD11||S-TIH11
|bgcolor="#FFEBAD" style="text-align:center"| 785258 || SF11 || DEDF785258 || FD11 || S-TIH11
|}
|}


==References==
==References==
{{reflist|25em}}
<references/>



{{DEFAULTSORT:Glass Code}}
{{DEFAULTSORT:Glass Code}}

Latest revision as of 00:21, 15 November 2024

A glass code is a method of classifying glasses for optical use, such as the manufacture of lenses and prisms. There are many different types of glass with different compositions and optical properties, and a glass code is used to distinguish between them.

There are several different glass classification schemes in use, most based on the catalogue systems used by glass manufacturers such as Pilkington and Schott Glass. These tend to be based on the material composition, for example BK7 is the Schott Glass classification of a common borosilicate crown glass.

Technical definition

[edit]

The international glass code is based on U.S. military standard MIL-G-174, and is a six-digit number specifying the glass according to its refractive index nd at the Fraunhofer d- (or D3-) line, 589.3 nm, and its Abbe number Vd also taken at that line. The resulting glass code is the value of nd − 1 rounded to three digits, followed by Vd rounded to three digits, with all decimal points ignored. For example, BK7 has nd = 1.5168 and Vd = 64.17, giving a six-digit glass code of 517642.[1]

Consequently, a linear approximation for the refractive index dispersion close that wavelength is given by:

where is the wavelength in nanometers.

The following table shows some example glasses and their glass code. Note that the glass properties can vary slightly between different manufacturer types.[2]

Glass nd Vd Glass
code
Manufacturer name
Schott Pilkington Hoya Ohara
Borosilicate crown 1.5168 64.17 517642 BK7 BSC517642 BSC7 S-BSL7
Barium crown 1.5688 56.05 569561 BaK4 MBC569561 BaC4 S-BAL14
Dense crown 1.6204 60.32 620603 SK16 DBC620603 BaCD16 S-BSM16
Lanthanum flint 1.7439 44.85 744448 LaF2 LAF744447 LaF2 S-LAM2
Dense flint 1.7847 25.76 785258 SF11 DEDF785258 FD11 S-TIH11

References

[edit]
  1. ^ "How the generic optical glass code works". newportglass.com.
  2. ^ Cross reference (PDF). OharaCorp.com (Report). 2010. Archived from the original (PDF) on 2011-10-08. Retrieved 2010-11-30.