Dossier Evaluation status
Dossier Evaluation status
Data platform availability banner - dossier evaluation status
The new ECHA CHEM database has been released by ECHA. See for more information on the transition to ECHA CHEM. More
Please be aware that REACH registration data on the current Dissemination Platform (accessible through the magnifying glass icon in the table) is no longer maintained; it remains frozen as of 19th May 2023. As shown in the support page we hope to move the dossier evaluation information to ECHA CHEM by the end of 2024. Until then, while the assessment status will be updated here, the corresponding registration dossiers will be available only on ECHA CHEM.
We appreciate your understanding during this transition period.
Dossier Evaluation status
ECHA’s dossier evaluation process covers compliance checks and the examination of testing proposals. By consulting the table below, you can find out whether ECHA has started to evaluate dossiers for a particular substance and follow the progress through the evaluation process.
The table below displays the type, scope and status of the assessment undertaken for a given dossier. The decision date and the non-confidential version of the decision are published shortly after the decision has been adopted.
Before publishing the non-confidential version of an adopted decision on its website, ECHA consults the addressees of the decision on this version. ECHA systematically removes any personal data from the non-confidential version of a decision. Some sections may also be redacted based on justified claims by registrants, regarding information confidential or deemed to harm their commercial interest if disclosed.
Check the expandable boxes below for more details.
Identifiers of the substance: Name (as on the Dissemination website); EC/List number (European Community number / List number assigned by ECHA); CAS number (also called the Chemical Abstract Service Registry Number or CAS RN).
Decision type can be ‘CCH’ for Compliance Check Evaluation and ‘TPE’ for Testing Proposal Evaluation.
Scope refers to the scope of the evaluation and can be:
- Targeted: The compliance check focuses only on some endpoints.
- Comprehensive: The compliance check focuses on all relevant endpoints under ECHA’s strategy.
- Testing proposal: The assessment focuses on the testing proposals submitted by the registrants.
Status reports the current position of the dossier in the dossier evaluation process and can be:
- Under assessment: The evaluation of the dossier has formally started.
- Ongoing: The registrants have received the draft decision - The dossier retains this status until the decision is adopted or the evaluation is otherwise concluded.
- Information requested: The registrants have received the adopted decision with the deadline for providing the requested information.
- Follow-up: The deadline set in the adopted decision has passed, and ECHA is assessing whether the information requested in the decision has been provided in the dossier update - This follow-up may also involve the national enforcement authorities.
- Concluded: The evaluation is closed.
In most cases, this means that the registrant has responded to the adopted decision with compliant information. However, as in some cases an evaluation is concluded at an earlier stage, an adopted decision is not always available for every evaluation marked as concluded.
Decision date reports the date on which the adopted decision was sent to the registrants.
Decision displays a non-confidential version of the adopted decision once available.
Latest update indicates the date of the latest automatic update carried out by ECHA’s information systems.
Unless confidentiality is claimed on the substance identifiers, you can access the disseminated registration dossiers for the substance in ECHA CHEM. From the table below, click on the substance name link to access the Substance Infocard. From there you will find a link to direct you to the ECHA CHEM substance Dashboard and the REACH registration dossier(s). You can also go directly to ECHA CHEM and search with substance identifiers.
The magnifying glass icon leads to information on the current dissemination platform that has not been updated since May 2023. We apologise for the inconvenience and appreciate your understanding during the transition period.
You can access additional information in ‘Details’ view, by clicking on the eye icon:
- Substance identifiers
- Decision type (CCH or TPE), scope and status of the evaluation, as in the main table
- Decision’s deadline(s): The deadline(s) for requested information contained in the decision, should the decision contain more than one deadline
- Appeal information: If the registrants have appealed against the adopted decision, a link to the Board of Appeal’s announcement document is provided.
ECHA’s information systems automatically update the status of dossier evaluations during the process. For transparency reasons, all dossier evaluation decisions will remain published. This also applies if the registrants have appealed or have updated the registration dossier as requested in the decision.
It is for the reader to verify the status of an evaluation: check the deadline of the decision, the indicated status of the evaluation, and the content of the registration dossier. The most recent registration data on a substance is available in the ECHA CHEM database; check also whether the Board of Appeal has taken a decision regarding any appeal.
Important notes:
- The dossier evaluation decisions may not apply to all registrants that are part of a joint registration.
- There may be a delay between the decision date and the actual publication of the adopted decision, which corresponds to the consultation on its non-confidential version and addressing any comments from the registrants.
Last updated 19 April 2024. Database contains 4165 unique substances/entries.
Decision | ||||||||||
---|---|---|---|---|---|---|---|---|---|---|
A complex residuum from the vacuum distillation of the residuum from atmospheric distillation of crude oil. It consists of hydrocarbons having carbon numbers predominantly greater than C34 and boiling above approximately 495°C (923°F).
|
265-057-8
|
64741-56-6
|
TPE
|
Testing Proposal
|
Concluded
|
19-Feb-2014
|
26-Nov-2022
|
Details | ||
A complex combination of hydrocarbons produced by the vacuum distillation of the residuum from atmospheric distillation of crude oil. It consists of hydrocarbons having carbon numbers predominantly in the range of C13 through C30 and boiling in the range of approximately 230°C to 450°C (446°F to 842°F).
|
265-059-9
|
64741-58-8
|
CCH
|
Targeted
|
Concluded
|
18-Aug-2014
|
26-Nov-2022
|
Details | ||
A complex combination of hydrocarbons produced by the vacuum distillation of the residuum from atmospheric distillation of crude oil. It consists of hydrocarbons having carbon numbers predominantly in the range of C13 through C30 and boiling in the range of approximately 230°C to 450°C (446°F to 842°F).
|
265-059-9
|
64741-58-8
|
TPE
|
Testing Proposal
|
Concluded
|
09-Jun-2022
|
Details | |||
A complex combination of hydrocarbons produced by the vacuum distillation of the residuum from atmospheric distillation of crude oil. It consists of hydrocarbons having carbon numbers predominantly in the range of C13 through C30 and boiling in the range of approximately 230°C to 450°C (446°F to 842°F).
|
265-059-9
|
64741-58-8
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | |||
A complex combination of hydrocarbons produced by the vacuum distillation of the residuum from atmospheric distillation of crude oil. It consists of hydrocarbons having carbon numbers predominantly in the range of C13 through C30 and boiling in the range of approximately 230°C to 450°C (446°F to 842°F).
|
265-059-9
|
64741-58-8
|
TPE
|
Testing Proposal
|
Information requested
|
24-Oct-2022
|
09-Feb-2023
|
Details | ||
A complex combination of hydrocarbons produced by the distillation of products from a catalytic cracking process. It consists of hydrocarbons having carbon numbers predominantly in the range of C9 through C25 and boiling in the range of approximately 150°C to 400°C (302°F to 752°F). It contains a relatively large proportion of bicyclic aromatic hydrocarbons.
|
265-060-4
|
64741-59-9
|
CCH
|
Targeted
|
Concluded
|
18-Aug-2014
|
26-Nov-2022
|
Details | ||
A complex combination of hydrocarbons produced from the distillation of products from a catalytic reforming process. It consists of hydrocarbons having carbon numbers predominantly in the range of C5 through C11 and boiling in the range of approximately 35°C to 190°C (95°F to 374°F). It contains a relatively large proportion of aromatic and branched chain hydrocarbons. This stream may contain 10 vol. % or more benzene.
|
265-065-1
|
64741-63-5
|
CCH
|
Targeted
|
Concluded
|
18-Aug-2014
|
26-Nov-2022
|
Details | ||
A complex combination of hydrocarbons produced by distillation of the reaction products of isobutane with monoolefinic hydrocarbons usually ranging in carbon numbers from C3 through C5. It consists of predominantly branched chain saturated hydrocarbons having carbon numbers predominantly in the range of C7 through C12 and boiling in the range of approximately 90°C to 220°C (194°F to 428°F).
|
265-066-7
|
64741-64-6
|
CCH
|
Targeted
|
Concluded
|
18-Aug-2014
|
26-Nov-2022
|
Details | ||
A complex combination of hydrocarbons from distillation of the products from a hydrocracking process. It consists predominantly of saturated hydrocarbons having carbon numbers predominantly in the range of C10 through C18, and boiling in the range of approximately 160°C to 320°C (320°F to 608°F).
|
265-078-2
|
64741-77-1
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | |||
A complex combination of hydrocarbons from distillation of the products from a hydrocracking process. It consists predominantly of saturated hydrocarbons having carbon numbers predominantly in the range of C10 through C18, and boiling in the range of approximately 160°C to 320°C (320°F to 608°F).
|
265-078-2
|
64741-77-1
|
TPE
|
Testing Proposal
|
Under assessment
|
09-Jun-2022
|
Details | |||
A complex combination of hydrocarbons from the distillation of the products from a thermal cracking process. It consists predominantly of unsaturated hydrocarbons having carbon numbers predominantly in the range of C10 through C22 and boiling in the range of approximately 160°C to 370°C (320°F to 698°F).
|
265-084-5
|
64741-82-8
|
CCH
|
Targeted
|
Concluded
|
18-Aug-2014
|
26-Nov-2022
|
Details | ||
A complex combination of hydrocarbons from distillation of the products from a thermal cracking process. It consists predominantly of unsaturated hydrocarbons having carbon numbers predominantly in the range of C6 through C12 and boiling in the range of approximately 65°C to 220°C (148°F to 428°F).
|
265-085-0
|
64741-83-9
|
CCH
|
Targeted
|
Concluded
|
18-Aug-2014
|
26-Nov-2022
|
Details | ||
A complex combination of hydrocarbons obtained by subjecting a petroleum distillate to a sweetening process to convert mercaptans or to remove acidic impurities. It consists of hydrocarbons having carbon numbers predominantly in the range of C9 through C20 and boiling in the range of approximately 150°C to 345°C (302°F to 653°F).
|
265-088-7
|
64741-86-2
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | |||
A complex combination of hydrocarbons obtained by subjecting a petroleum distillate to a sweetening process to convert mercaptans or to remove acidic impurities. It consists of hydrocarbons having carbon numbers predominantly in the range of C9 through C20 and boiling in the range of approximately 150°C to 345°C (302°F to 653°F).
|
265-088-7
|
64741-86-2
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | |||
A complex combination of hydrocarbons obtained as the extract from a solvent extraction process. It consists predominantly of aromatic hydrocarbons having carbon numbers predominantly in the range of C7 through C12 and boiling in the range of approximately 90°C to 220°C (194°F to 428°F).
|
265-099-7
|
64741-98-6
|
TPE
|
Testing Proposal
|
Under assessment
|
09-Jun-2022
|
Details | |||
A complex combination of hydrocarbons obtained as the extract from a solvent extraction process. It consists predominantly of aromatic hydrocarbons having carbon numbers predominantly in the range of C20 through C50. This stream is likely to contain 5 wt. % or more of 4- to 6-membered condensed ring aromatic hydrocarbons.
|
265-103-7
|
64742-04-7
|
CCH
|
Targeted
|
Concluded
|
18-Aug-2014
|
26-Nov-2022
|
Details | ||
A complex combination of hydrocarbons obtained as the extract from a solvent extraction process. It consists predominantly of aromatic hydrocarbons having carbon numbers predominantly higher than C25.
|
265-110-5
|
64742-10-5
|
TPE
|
Testing Proposal
|
Concluded
|
04-May-2020
|
06-Apr-2023
|
Details | ||
A complex combination of hydrocarbons obtained as the extract from a solvent extraction process. It consists predominantly of aromatic hydrocarbons having carbon numbers predominantly higher than C25.
|
265-110-5
|
64742-10-5
|
TPE
|
Testing Proposal
|
Concluded
|
07-Jan-2023
|
Details | |||
A complex combination of hydrocarbons obtained as the extract from a solvent extraction process. It consists predominantly of aromatic hydrocarbons having carbon numbers predominantly higher than C25.
|
265-110-5
|
64742-10-5
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | |||
A complex combination of hydrocarbons obtained as the extract from a solvent extraction process. It consists predominantly of aromatic hydrocarbons having carbon numbers predominantly higher than C25.
|
265-110-5
|
64742-10-5
|
TPE
|
Testing Proposal
|
Under assessment
|
27-Apr-2023
|
Details | |||
A complex combination of hydrocarbons obtained by treating a petroleum fraction with hydrogen in the presence of a catalyst. It consists of hydrocarbons having carbon numbers predominantly in the range of C11 through C25 and boiling in the range of approximately 205°C to 400°C (401°F to 752°F).
|
265-148-2
|
64742-46-7
|
TPE
|
Testing Proposal
|
Follow-up
|
22-Jul-2021
|
18-May-2023
|
Details | ||
A complex combination of hydrocarbons obtained by treating a petroleum fraction with hydrogen in the presence of a catalyst. It consists of hydrocarbons having carbon numbers predominantly in the range of C11 through C25 and boiling in the range of approximately 205°C to 400°C (401°F to 752°F).
|
265-148-2
|
64742-46-7
|
CCH
|
Targeted
|
Concluded
|
18-Aug-2014
|
26-Nov-2022
|
Details | ||
A complex combination of hydrocarbons obtained by treating a petroleum fraction with hydrogen in the presence of a catalyst. It consists of hydrocarbons having carbon numbers predominantly in the range of C11 through C25 and boiling in the range of approximately 205°C to 400°C (401°F to 752°F).
|
265-148-2
|
64742-46-7
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | |||
A complex combination of hydrocarbons obtained by treating a petroleum fraction with hydrogen in the presence of a catalyst. It consists of hydrocarbons having carbon numbers predominantly in the range of C9 through C16 and boiling in the range of approximately 150°C to 290°C (302°F to 554°F).
|
265-149-8
|
64742-47-8
|
CCH
|
Targeted
|
Concluded
|
18-Aug-2014
|
26-Nov-2022
|
Details | ||
A complex combination of hydrocarbons obtained by treating a petroleum fraction with hydrogen in the presence of a catalyst. It consists of hydrocarbons having carbon numbers predominantly in the range of C6 through C13 and boiling in the range of approximately 65°C to 230°C (149°F to 446°F).
|
265-150-3
|
64742-48-9
|
CCH
|
Targeted
|
Concluded
|
18-Aug-2014
|
26-Nov-2022
|
Details | ||
A complex combination of hydrocarbons obtained by treating an atmospheric tower residuum with hydrogen in the presence of a catalyst under conditions primarily to remove organic sulfur compounds. It consists of hydrocarbons having carbon numbers predominantly greater than C20 and boiling above approximately 350°C (662°F). This stream is likely to contain 5 wt. % or more of 4- to 6-membered condensed ring aromatic hydrocarbons.
|
265-181-2
|
64742-78-5
|
CCH
|
Targeted
|
Concluded
|
18-Aug-2014
|
26-Nov-2022
|
Details | ||
A complex combination of hydrocarbons obtained from a petroleum stock by treating with hydrogen to convert organic sulfur to hydrogen sulfide which is removed. It consists predominantly of hydrocarbons having carbon numbers predominantly in the range of C13 through C25 and boiling in the range of approximately 230°C to 400°C (446°F to 752°F).
|
265-182-8
|
64742-79-6
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | |||
A complex combination of hydrocarbons obtained from a petroleum stock by treating with hydrogen to convert organic sulfur to hydrogen sulfide which is removed. It consists predominantly of hydrocarbons having carbon numbers predominantly in the range of C13 through C25 and boiling in the range of approximately 230°C to 400°C (446°F to 752°F).
|
265-182-8
|
64742-79-6
|
TPE
|
Testing Proposal
|
Information requested
|
22-Jul-2021
|
09-Feb-2023
|
Details | ||
A complex combination of hydrocarbons obtained from a petroleum stock by treating with hydrogen to convert organic sulfur to hydrogen sulfide which is removed. It consists of hydrocarbons having carbon numbers predominantly in the range of C11 through C25 and boiling in the range of approximately 205°C to 400°C (401°F to 752°F).
|
265-183-3
|
64742-80-9
|
TPE
|
Testing Proposal
|
Follow-up
|
22-Jul-2021
|
18-May-2023
|
Details | ||
A complex combination of hydrocarbons obtained from a petroleum stock by treating with hydrogen to convert organic sulfur to hydrogen sulfide which is removed. It consists of hydrocarbons having carbon numbers predominantly in the range of C11 through C25 and boiling in the range of approximately 205°C to 400°C (401°F to 752°F).
|
265-183-3
|
64742-80-9
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | |||
A complex combination of hydrocarbons obtained by treating a vacuum residuum with hydrogen in the presence of a catalyst under conditions primarily to remove organic sulfur compounds. It consists of hydrocarbons having carbon numbers predominantly greater than C34 and boiling approximately above 495°C (923°F).
|
265-188-0
|
64742-85-4
|
TPE
|
Testing Proposal
|
Concluded
|
19-Dec-2016
|
26-Nov-2022
|
Details | ||
A complex combination of hydrocarbons obtained from a catalytic hydrodesulfurization process. It consists of hydrocarbons having carbon numbers predominantly in the range of C13 through C30 and boiling in the range of approximately 230°C to 450°C (446°F to 842°F).
|
265-190-1
|
64742-87-6
|
TPE
|
Testing Proposal
|
Under assessment
|
09-Jun-2022
|
Details | |||
A complex combination of hydrocarbons obtained from a catalytic hydrodesulfurization process. It consists of hydrocarbons having carbon numbers predominantly in the range of C13 through C30 and boiling in the range of approximately 230°C to 450°C (446°F to 842°F).
|
265-190-1
|
64742-87-6
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | |||
A complex black solid obtained by blowing air through a heated residuum, or raffinate from a deasphalting process with or without a catalyst. The process is principally one of oxidative condensation which increases the molecular weight.
|
265-196-4
|
64742-93-4
|
TPE
|
Testing Proposal
|
Concluded
|
19-Feb-2014
|
26-Nov-2022
|
Details | ||
A complex black solid obtained by blowing air through a heated residuum, or raffinate from a deasphalting process with or without a catalyst. The process is principally one of oxidative condensation which increases the molecular weight.
|
265-196-4
|
64742-93-4
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | |||
A complex black solid obtained by blowing air through a heated residuum, or raffinate from a deasphalting process with or without a catalyst. The process is principally one of oxidative condensation which increases the molecular weight.
|
265-196-4
|
64742-93-4
|
TPE
|
Testing Proposal
|
Follow-up
|
04-Dec-2020
|
20-Mar-2023
|
Details | ||
A complex combination of hydrocarbons obtained from distillation of aromatic streams. It consists predominantly of aromatic hydrocarbons having carbon numbers predominantly in the range of C9 through C16 and boiling in the range of approximately 165°C to 290°C (330°F to 554°F).
|
265-198-5
|
64742-94-5
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | |||
A complex combination of hydrocarbons obtained from distillation of aromatic streams. It consists predominantly of aromatic hydrocarbons having carbon numbers predominantly in the range of C9 through C16 and boiling in the range of approximately 165°C to 290°C (330°F to 554°F).
|
265-198-5
|
64742-94-5
|
TPE
|
Testing Proposal
|
Under assessment
|
09-Jun-2022
|
Details | |||
A complex combination of hydrocarbons obtained from distillation of aromatic streams. It consists predominantly of aromatic hydrocarbons having carbon numbers predominantly in the range of C9 through C16 and boiling in the range of approximately 165°C to 290°C (330°F to 554°F).
|
265-198-5
|
64742-94-5
|
CCH
|
Targeted
|
Concluded
|
18-Aug-2014
|
26-Nov-2022
|
Details | ||
A complex combination of hydrocarbons obtained from distillation of aromatic streams. It consists predominantly of aromatic hydrocarbons having carbon numbers predominantly in the range of C9 through C16 and boiling in the range of approximately 165°C to 290°C (330°F to 554°F).
|
265-198-5
|
64742-94-5
|
TPE
|
Testing Proposal
|
Under assessment
|
09-Jun-2022
|
Details | |||
A complex combination of hydrocarbons obtained from the distillation of crude oil or natural gasoline. It consists predominantly of saturated hydrocarbons having carbon numbers predominantly in the range of C11 through C16 and boiling in the range of approximately 190°C to 290°C (374°F to 554°F).
|
265-200-4
|
64742-96-7
|
CCH
|
Targeted
|
Concluded
|
18-Aug-2014
|
26-Nov-2022
|
Details | ||
A combination of normal paraffins having carbon numbers predominantly greater than C10 obtained by urea adduction or molecular sieve processes.
|
265-232-9
|
64771-71-7
|
CCH
|
Targeted
|
Concluded
|
18-Apr-2013
|
26-Nov-2022
|
Details | ||
A combination of normal paraffins having carbon numbers predominantly greater than C10 obtained by urea adduction or molecular sieve processes.
|
265-232-9
|
64771-71-7
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | |||
229-347-8
|
6484-52-2
|
CCH
|
Targeted
|
Concluded
|
29-Jan-2013
|
26-Nov-2022
|
Details | |||
229-347-8
|
6484-52-2
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
229-352-5
|
6485-40-1
|
CCH
|
Comprehensive
|
Concluded
|
21-Jul-2017
|
26-Nov-2022
|
Details | |||
229-355-1
|
6486-23-3
|
CCH
|
Comprehensive
|
Follow-up
|
11-Feb-2021
|
24-May-2023
|
Details | |||
445-910-2
|
649761-22-8
|
CCH
|
Targeted
|
Concluded
|
14-Apr-2011
|
26-Nov-2022
|
Details | |||
200-606-7
|
65-30-5
|
CCH
|
Targeted
|
Concluded
|
29-May-2020
|
26-Nov-2022
|
Details | |||
200-618-2
|
65-85-0
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
200-618-2
|
65-85-0
|
CCH
|
Targeted
|
Concluded
|
24-Jun-2014
|
26-Nov-2022
|
Details | |||
200-618-2
|
65-85-0
|
CCH
|
Comprehensive
|
Concluded
|
26-Nov-2022
|
Details | ||||
211-479-2
|
650-51-1
|
TPE
|
Testing Proposal
|
Concluded
|
22-Jul-2013
|
26-Nov-2022
|
Details | |||
211-479-2
|
650-51-1
|
CCH
|
Comprehensive
|
Ongoing
|
27-Nov-2023
|
Details | ||||
229-390-2
|
6505-30-2
|
TPE
|
Testing Proposal
|
Follow-up
|
23-Nov-2021
|
06-Dec-2023
|
Details | |||
265-449-9
|
65113-55-5
|
TPE
|
Testing Proposal
|
Concluded
|
16-Mar-2015
|
26-Nov-2022
|
Details | |||
265-449-9
|
65113-55-5
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | ||||
265-449-9
|
65113-55-5
|
CCH
|
Comprehensive
|
Follow-up
|
31-Aug-2021
|
09-Feb-2023
|
Details | |||
265-633-9
|
65212-76-2
|
CCH
|
Comprehensive
|
Concluded
|
26-Nov-2022
|
Details | ||||
265-634-4
|
65212-77-3
|
CCH
|
Comprehensive
|
Concluded
|
26-Jun-2020
|
07-Jul-2023
|
Details | |||
229-419-9
|
6528-34-3
|
CCH
|
Targeted
|
Ongoing
|
19-May-2023
|
Details | ||||
229-419-9
|
6528-34-3
|
CCH
|
Comprehensive
|
Follow-up
|
11-Feb-2021
|
24-May-2023
|
Details | |||
695-748-3
|
65286-55-7
|
TPE
|
Testing Proposal
|
Concluded
|
22-Oct-2020
|
29-Nov-2023
|
Details | |||
695-748-3
|
65286-55-7
|
TPE
|
Testing Proposal
|
Information requested
|
14-Feb-2024
|
15-Apr-2024
|
Details | |||
229-440-3
|
6535-46-2
|
CCH
|
Targeted
|
Concluded
|
07-Jun-2013
|
26-Nov-2022
|
Details | |||
229-440-3
|
6535-46-2
|
CCH
|
Comprehensive
|
Follow-up
|
09-Apr-2018
|
15-Nov-2023
|
Details | |||
265-745-8
|
65405-77-8
|
CCH
|
Targeted
|
Information requested
|
12-Jan-2023
|
02-Mar-2023
|
Details | |||
265-745-8
|
65405-77-8
|
CCH
|
Comprehensive
|
Follow-up
|
15-Nov-2018
|
26-Nov-2022
|
Details | |||
211-519-9
|
657-27-2
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
211-522-5
|
657-84-1
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | ||||
211-522-5
|
657-84-1
|
CCH
|
Comprehensive
|
Follow-up
|
10-Dec-2019
|
26-Nov-2022
|
Details | |||
211-522-5
|
657-84-1
|
TPE
|
Testing Proposal
|
Follow-up
|
10-Dec-2019
|
26-Nov-2022
|
Details | |||
265-929-8
|
65799-47-5
|
CCH
|
Comprehensive
|
Ongoing
|
11-Dec-2023
|
Details | ||||
613-848-7
|
65870-94-2
|
CCH
|
Comprehensive
|
Concluded
|
26-Nov-2022
|
Details | ||||
634-657-5
|
65962-45-0
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | ||||
The fused substance formed by the action of a flux upon the gangue of the iron-bearing materials charged to a blast furnace and upon the oxidized impurities in the iron produced. Depending upon the particular blast furnace operation, the slag is composed primarily of sulfur and oxides of aluminum, calcium, magnesium, and silicon.
|
266-002-0
|
65996-69-2
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | |||
The fused substance formed by the action of a flux upon the gangue of the iron-bearing materials charged to a blast furnace and upon the oxidized impurities in the iron produced. Depending upon the particular blast furnace operation, the slag is composed primarily of sulfur and oxides of aluminum, calcium, magnesium, and silicon.
|
266-002-0
|
65996-69-2
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | |||
The fused substance formed by the action of a flux upon the gangue of iron-bearing materials charged to a steelmaking furnace and upon the oxidized impurities in the steel produced. Depending upon the particular steelmaking operation, the slag is composed primarily of sulfur and oxides of aluminum, calcium, iron, magnesium, manganese, phosphorus, and silicon.
|
266-004-1
|
65996-71-6
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | |||
The dust generated during the charging, operation, and tapping of a steelmaking furnace and from steel conditioning, including that which is recovered through the use of pollution abatement equipment. Composed primarily of iron oxides. May contain varying amounts of other metallic oxides and trace compounds.
|
266-005-7
|
65996-72-7
|
TPE
|
Testing Proposal
|
Under assessment
|
24-May-2023
|
Details | |||
The dust generated during the charging, operation, and tapping of a steelmaking furnace and from steel conditioning, including that which is recovered through the use of pollution abatement equipment. Composed primarily of iron oxides. May contain varying amounts of other metallic oxides and trace compounds.
|
266-005-7
|
65996-72-7
|
TPE
|
Testing Proposal
|
Concluded
|
04-Jul-2012
|
26-Nov-2022
|
Details | ||
The wetted particulate matter recovered by wet collection techniques, including pollution abatement equipment, for the recovery of materials such as iron sinter dust, blast furnace dust, steelmaking dust, and mill scale.
|
266-006-2
|
65996-73-8
|
TPE
|
Testing Proposal
|
Concluded
|
31-Oct-2012
|
26-Nov-2022
|
Details | ||
The wetted particulate matter recovered by wet collection techniques, including pollution abatement equipment, for the recovery of materials such as iron sinter dust, blast furnace dust, steelmaking dust, and mill scale.
|
266-006-2
|
65996-73-8
|
CCH
|
Targeted
|
Concluded
|
27-Nov-2015
|
26-Nov-2022
|
Details | ||
The wetted particulate matter recovered by wet collection techniques, including pollution abatement equipment, for the recovery of materials such as iron sinter dust, blast furnace dust, steelmaking dust, and mill scale.
|
266-006-2
|
65996-73-8
|
TPE
|
Testing Proposal
|
Under assessment
|
24-May-2023
|
Details | |||
The distillate from either high temperature coal tar, coke oven light oil, or coal tar oil alkaline extract residue having an approximate distillation range of 130°C to 210°C (266°F to 410°F) Composed primarily of indene and other polycyclic ring systems containing a single aromatic ring. May contain phenolic compounds and aromatic nitrogen bases.
|
266-013-0
|
65996-79-4
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | |||
The distillate from either high temperature coal tar, coke oven light oil, or coal tar oil alkaline extract residue having an approximate distillation range of 130°C to 210°C (266°F to 410°F) Composed primarily of indene and other polycyclic ring systems containing a single aromatic ring. May contain phenolic compounds and aromatic nitrogen bases.
|
266-013-0
|
65996-79-4
|
TPE
|
Testing Proposal
|
Under assessment
|
09-Jun-2022
|
Details | |||
266-037-1
|
65997-01-5
|
CCH
|
Comprehensive
|
Concluded
|
26-Nov-2022
|
Details | ||||
266-037-1
|
65997-01-5
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
The low boiling fraction obtained by the distillation of tall oil. Contains fatty acids such as palmitic, stearic, oleic and linoleic as well as neutral materials.
|
266-039-2
|
65997-03-7
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | |||
266-040-8
|
65997-04-8
|
CCH
|
Targeted
|
Concluded
|
04-Nov-2011
|
26-Nov-2022
|
Details | |||
266-040-8
|
65997-04-8
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | ||||
266-040-8
|
65997-04-8
|
TPE
|
Testing Proposal
|
Concluded
|
14-Aug-2014
|
26-Nov-2022
|
Details | |||
266-040-8
|
65997-04-8
|
TPE
|
Testing Proposal
|
Under assessment
|
09-Jun-2022
|
Details | ||||
266-040-8
|
65997-04-8
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | ||||
500-163-2
|
65997-05-9
|
TPE
|
Testing Proposal
|
Concluded
|
14-Aug-2014
|
26-Nov-2022
|
Details | |||
500-163-2
|
65997-05-9
|
TPE
|
Testing Proposal
|
11-Jul-2022
|
Details | |||||
266-041-3
|
65997-06-0
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | ||||
266-041-3
|
65997-06-0
|
TPE
|
Testing Proposal
|
30-Mar-2022
|
Details | |||||
266-041-3
|
65997-06-0
|
CCH
|
Targeted
|
Concluded
|
04-Nov-2011
|
26-Nov-2022
|
Details | |||
266-041-3
|
65997-06-0
|
TPE
|
Testing Proposal
|
Concluded
|
14-Aug-2014
|
26-Nov-2022
|
Details | |||
613-868-6
|
65997-12-8
|
TPE
|
Testing Proposal
|
Concluded
|
14-Aug-2014
|
26-Nov-2022
|
Details | |||
613-868-6
|
65997-12-8
|
TPE
|
Testing Proposal
|
11-Jul-2022
|
Details | |||||
266-042-9
|
65997-13-9
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | ||||
266-042-9
|
65997-13-9
|
TPE
|
Testing Proposal
|
11-Jul-2022
|
Details | |||||
266-042-9
|
65997-13-9
|
CCH
|
Targeted
|
Concluded
|
04-Nov-2011
|
26-Nov-2022
|
Details | |||
266-042-9
|
65997-13-9
|
TPE
|
Testing Proposal
|
Concluded
|
14-Aug-2014
|
26-Nov-2022
|
Details | |||
Frit is a mixture of inorganic chemical substances produced by rapidly quenching a molten, complex combination of materials, confining the chemical substances thus manufactured as nonmigratory components of glassy solid flakes or granules. This category includes all of the chemical substances specified below when they are intentionally manufactured in the production of frit. The primary members of this category are oxides of some or all of the elements listed below. Fluorides of these elements may also be included in combination with these primary substances.@Aluminum@Manganese@Antimony@Molybdenum@Arsenic@Neodymium@Barium@Nickel@Bismuth@Niobium@Boron@Phosphorus@Cadmium@Potassium@Calcium@Silicon@Cerium@Silver@Chromium@Sodium@Cobalt@Strontium@Copper@Tin@Gold@Titanium@Iron@Tungsten@Lanthanum@Vanadium@Lead@Zinc@Lithium@Zirconium@Magnesium
|
266-047-6
|
65997-18-4
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | |||
200-624-5
|
66-25-1
|
TPE
|
Testing Proposal
|
Follow-up
|
11-Dec-2019
|
26-Nov-2022
|
Details | |||
200-624-5
|
66-25-1
|
TPE
|
Testing Proposal
|
Follow-up
|
14-Apr-2023
|
01-Jun-2023
|
Details | |||
229-542-8
|
6600-31-3
|
TPE
|
Testing Proposal
|
Concluded
|
04-Jun-2015
|
26-Nov-2022
|
Details | |||
457-330-7
|
66034-17-1
|
TPE
|
Testing Proposal
|
Information requested
|
12-Oct-2022
|
09-Feb-2023
|
Details | |||
457-330-7
|
66034-17-1
|
CCH
|
Targeted
|
Follow-up
|
11-Jun-2021
|
20-Dec-2023
|
Details | |||
229-551-7
|
6606-59-3
|
CCH
|
Comprehensive
|
Under assessment
|
08-Feb-2024
|
Details | ||||
Substance obtained by the partial removal of water from the liquid resulting from steeping corn in a water and sulphur dioxide solution which is allowed to ferment by the action of naturally occurring lactic acid-producing microorganisms.
|
266-113-4
|
66071-94-1
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | |||
Substance obtained by the partial removal of water from the liquid resulting from steeping corn in a water and sulphur dioxide solution which is allowed to ferment by the action of naturally occurring lactic acid-producing microorganisms.
|
266-113-4
|
66071-94-1
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | |||
Substance obtained by the partial removal of water from the liquid resulting from steeping corn in a water and sulphur dioxide solution which is allowed to ferment by the action of naturally occurring lactic acid-producing microorganisms.
|
266-113-4
|
66071-94-1
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | |||
211-546-6
|
661-19-8
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
211-546-6
|
661-19-8
|
TPE
|
Testing Proposal
|
Under assessment
|
16-Jun-2023
|
Details | ||||
229-563-2
|
6610-29-3
|
TPE
|
Testing Proposal
|
Follow-up
|
10-Sep-2015
|
26-Nov-2022
|
Details | |||
This substance is identified in the Colour Index by Colour Index Constitution Number, C.I. 53185.
|
266-273-5
|
66241-11-0
|
CCH
|
Targeted
|
Concluded
|
28-Aug-2014
|
26-Nov-2022
|
Details | ||
This category encompasses the various chemical substances manufactured in the production of ceramics. For purposes of this category, a ceramic is defined as a crystalline or partially crystalline, inorganic, non-metallic, usually opaque substance consisting principally of combinations of inorganic oxides of aluminum, calcium, chromium, iron, magnesium, silicon, titanium, or zirconium which conventionally is formed first by fusion or sintering at very high temperatures, then by cooling, generally resulting in a rigid, brittle monophase or multiphase structure. (Those ceramics which are produced by heating inorganic glass, thereby changing its physical structure from amorphous to crystalline but not its chemical identity are not included in this definition.) This category consists of chemical substances other than by-products or impurities which are formed during the production of various ceramics and concurrently incorporated into a ceramic mixture. Its composition may contain any one or a combination of these substances. Trace amounts of oxides and other substances may be present. The following representative elements are principally present as oxides but may also be present as borides, carbides, chlorides, fluorides, nitrides, silicides, or sulfides in multiple oxidation states, or in more complex compounds.@Aluminum@Lithium@Barium@Magnesium@Beryllium@Manganese@Boron@Phosphorus@Cadmium@Potassium@Calcium@Silicon@Carbon@Sodium@Cerium@Thorium@Cesium@Tin@Chromium@Titanium@Cobalt@Uranium@Copper@Yttrium@Hafnium@Zinc@Iron@Zirconium
|
266-340-9
|
66402-68-4
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | |||
This category encompasses the various chemical substances manufactured in the production of ceramics. For purposes of this category, a ceramic is defined as a crystalline or partially crystalline, inorganic, non-metallic, usually opaque substance consisting principally of combinations of inorganic oxides of aluminum, calcium, chromium, iron, magnesium, silicon, titanium, or zirconium which conventionally is formed first by fusion or sintering at very high temperatures, then by cooling, generally resulting in a rigid, brittle monophase or multiphase structure. (Those ceramics which are produced by heating inorganic glass, thereby changing its physical structure from amorphous to crystalline but not its chemical identity are not included in this definition.) This category consists of chemical substances other than by-products or impurities which are formed during the production of various ceramics and concurrently incorporated into a ceramic mixture. Its composition may contain any one or a combination of these substances. Trace amounts of oxides and other substances may be present. The following representative elements are principally present as oxides but may also be present as borides, carbides, chlorides, fluorides, nitrides, silicides, or sulfides in multiple oxidation states, or in more complex compounds.@Aluminum@Lithium@Barium@Magnesium@Beryllium@Manganese@Boron@Phosphorus@Cadmium@Potassium@Calcium@Silicon@Carbon@Sodium@Cerium@Thorium@Cesium@Tin@Chromium@Titanium@Cobalt@Uranium@Copper@Yttrium@Hafnium@Zinc@Iron@Zirconium
|
266-340-9
|
66402-68-4
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | |||
1 - 2.5 moles ethoxylated
|
500-165-3
|
66455-14-9
|
CCH
|
Comprehensive
|
Concluded
|
26-Nov-2022
|
Details | |||
266-367-6
|
66455-17-2
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
266-369-7
|
66469-15-6
|
CCH
|
Comprehensive
|
Ongoing
|
27-Mar-2024
|
Details | ||||
266-380-7
|
66492-51-1
|
TPE
|
Testing Proposal
|
Concluded
|
21-Nov-2014
|
26-Nov-2022
|
Details | |||
266-380-7
|
66492-51-1
|
CCH
|
Comprehensive
|
Concluded
|
26-Nov-2022
|
Details | ||||
229-695-0
|
6658-48-6
|
CCH
|
Comprehensive
|
Ongoing
|
06-Apr-2023
|
Details | ||||
266-417-7
|
66587-56-2
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
266-417-7
|
66587-56-2
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
266-442-3
|
66669-53-2
|
TPE
|
Testing Proposal
|
Information requested
|
09-Aug-2023
|
13-Sep-2023
|
Details | |||
229-713-7
|
6674-22-2
|
TPE
|
Testing Proposal
|
Concluded
|
16-Sep-2015
|
26-Nov-2022
|
Details | |||
229-722-6
|
6683-19-8
|
TPE
|
Testing Proposal
|
Concluded
|
13-Jun-2012
|
26-Nov-2022
|
Details | |||
229-722-6
|
6683-19-8
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
229-722-6
|
6683-19-8
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
229-722-6
|
6683-19-8
|
CCH
|
Comprehensive
|
Concluded
|
26-Nov-2022
|
Details | ||||
266-533-8
|
66988-04-3
|
CCH
|
Comprehensive
|
Information requested
|
07-Nov-2023
|
05-Mar-2024
|
Details | |||
200-652-8
|
67-43-6
|
TPE
|
Testing Proposal
|
Under assessment
|
06-Mar-2024
|
Details | ||||
200-655-4
|
67-48-1
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
200-655-4
|
67-48-1
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
200-657-5
|
67-51-6
|
CCH
|
Comprehensive
|
Concluded
|
26-Nov-2022
|
Details | ||||
200-657-5
|
67-51-6
|
CCH
|
Targeted
|
Concluded
|
20-Dec-2016
|
26-Nov-2022
|
Details | |||
200-657-5
|
67-51-6
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
200-659-6
|
67-56-1
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
200-659-6
|
67-56-1
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
200-659-6
|
67-56-1
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
200-659-6
|
67-56-1
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
200-659-6
|
67-56-1
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
200-659-6
|
67-56-1
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
200-659-6
|
67-56-1
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
200-659-6
|
67-56-1
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
200-661-7
|
67-63-0
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
200-662-2
|
67-64-1
|
CCH
|
Comprehensive
|
Concluded
|
18-Sep-2013
|
26-Nov-2022
|
Details | |||
200-664-3
|
67-68-5
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
200-664-3
|
67-68-5
|
TPE
|
Testing Proposal
|
Ongoing
|
17-Oct-2023
|
Details | ||||
200-665-9
|
67-71-0
|
CCH
|
Comprehensive
|
Concluded
|
26-Nov-2022
|
Details | ||||
211-581-7
|
670-96-2
|
CCH
|
Comprehensive
|
Concluded
|
17-Sep-2022
|
Details | ||||
229-745-1
|
6701-13-9
|
CCH
|
Comprehensive
|
Under assessment
|
08-Feb-2024
|
Details | ||||
ISONONYLBENZOAT
|
447-010-5
|
670241-72-2
|
CCH
|
Comprehensive
|
Concluded
|
21-Jan-2021
|
26-Nov-2022
|
Details | ||
266-564-7
|
67075-37-0
|
CCH
|
Comprehensive
|
Follow-up
|
08-Nov-2019
|
26-Nov-2022
|
Details | |||
229-761-9
|
6711-48-4
|
CCH
|
Comprehensive
|
Ongoing
|
08-Dec-2022
|
Details | ||||
229-761-9
|
6711-48-4
|
TPE
|
Testing Proposal
|
Under assessment
|
19-Aug-2022
|
Details | ||||
229-764-5
|
6712-98-7
|
CCH
|
Comprehensive
|
Concluded
|
20-Feb-2019
|
26-Nov-2022
|
Details | |||
266-582-5
|
67124-09-8
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
266-582-5
|
67124-09-8
|
CCH
|
Comprehensive
|
Follow-up
|
10-Mar-2020
|
20-Dec-2023
|
Details | |||
266-587-2
|
67151-63-7
|
TPE
|
Testing Proposal
|
Concluded
|
19-Dec-2014
|
26-Nov-2022
|
Details | |||
266-587-2
|
67151-63-7
|
TPE
|
Testing Proposal
|
Under assessment
|
17-May-2023
|
Details | ||||
266-587-2
|
67151-63-7
|
CCH
|
Targeted
|
Concluded
|
30-Jun-2020
|
27-Mar-2023
|
Details | |||
266-587-2
|
67151-63-7
|
CCH
|
Targeted
|
Concluded
|
01-Mar-2017
|
21-Dec-2023
|
Details | |||
266-587-2
|
67151-63-7
|
CCH
|
Comprehensive
|
Under assessment
|
18-Apr-2024
|
Details | ||||
229-782-3
|
6731-36-8
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
229-782-3
|
6731-36-8
|
TPE
|
Testing Proposal
|
Concluded
|
20-Sep-2016
|
26-Nov-2022
|
Details | |||
229-782-3
|
6731-36-8
|
TPE
|
Testing Proposal
|
Concluded
|
05-Jul-2012
|
26-Nov-2022
|
Details | |||
229-782-3
|
6731-36-8
|
CCH
|
Targeted
|
Follow-up
|
06-May-2021
|
26-Nov-2022
|
Details | |||
229-782-3
|
6731-36-8
|
TPE
|
Testing Proposal
|
Concluded
|
31-Oct-2022
|
19-Jan-2023
|
Details | |||
229-782-3
|
6731-36-8
|
TPE
|
Testing Proposal
|
Concluded
|
29-Nov-2023
|
Details | ||||
229-792-8
|
6737-68-4
|
CCH
|
Comprehensive
|
Concluded
|
17-Apr-2023
|
Details | ||||
700-040-5
|
674347-28-5
|
CCH
|
Comprehensive
|
Concluded
|
26-Nov-2022
|
Details | ||||
614-074-2
|
675106-31-7
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
266-733-5
|
67584-55-8
|
TPE
|
Testing Proposal
|
Concluded
|
20-May-2015
|
26-Nov-2022
|
Details | |||
266-733-5
|
67584-55-8
|
CCH
|
Comprehensive
|
Concluded
|
26-Nov-2022
|
Details | ||||
266-840-7
|
67656-24-0
|
CCH
|
Comprehensive
|
Concluded
|
26-Nov-2022
|
Details | ||||
This substance is identified by SDA Substance Name: C12-C18 alkyl carboxylic acid and SDA Reporting Number: 16-005-00.
|
266-925-9
|
67701-01-3
|
CCH
|
Targeted
|
Concluded
|
25-Nov-2014
|
26-Nov-2022
|
Details | ||
This substance is identified by SDA Substance Name: C14-C18 and C16-C18 unsaturated alkyl carboxylic acid and SDA Reporting Number: 04-005-00.
|
266-930-6
|
67701-06-8
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | |||
This substance is identified by SDA Substance Name: C14-C18 and C16-C18 unsaturated alkyl carboxylic acid zinc salt and SDA Reporting Number: 04-006-09.
|
266-936-9
|
67701-12-6
|
CCH
|
Targeted
|
Concluded
|
20-Aug-2013
|
26-Nov-2022
|
Details | ||
This substance is identified by SDA Substance Name: C12-C18 trialkyl glyceride and SDA Reporting Number: 16-001-00.
|
266-944-2
|
67701-26-2
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | |||
This substance is identified by SDA Substance Name: C12-C18 trialkyl glyceride and SDA Reporting Number: 16-001-00.
|
266-944-2
|
67701-26-2
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | |||
This substance is identified by SDA Substance Name: C14-C18 trialkyl glyceride and SDA Reporting Number: 17-001-00.
|
266-945-8
|
67701-27-3
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | |||
614-114-9
|
67746-08-1
|
CCH
|
Targeted
|
Concluded
|
20-Apr-2016
|
26-Nov-2022
|
Details | |||
614-114-9
|
67746-08-1
|
CCH
|
Comprehensive
|
Concluded
|
26-Nov-2022
|
Details | ||||
614-114-9
|
67746-08-1
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | ||||
This substance is identified by SDA Substance Name: C14-C18 and C16-C18 unsaturated alkyl carboxylic acid methyl ester and SDA Reporting Number: 04-010-00.
|
267-007-0
|
67762-26-9
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | |||
This substance is identified by SDA Substance Name: C14-C18 and C16-C18 unsaturated alkyl carboxylic acid methyl ester and SDA Reporting Number: 04-010-00.
|
267-007-0
|
67762-26-9
|
CCH
|
Targeted
|
Concluded
|
09-Dec-2015
|
26-Nov-2022
|
Details | ||
This substance is identified by SDA Substance Name: C16-C18 and C18 unsaturated alkyl carboxylic acid methyl ester and SDA Reporting Number: 11-010-00.
|
267-015-4
|
67762-38-3
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | |||
267-022-2
|
67762-53-2
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
267-022-2
|
67762-53-2
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | ||||
267-023-8
|
67762-55-4
|
CCH
|
Comprehensive
|
Follow-up
|
10-Mar-2020
|
10-Jul-2023
|
Details | |||
267-023-8
|
67762-55-4
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
267-028-5
|
67762-63-4
|
TPE
|
Testing Proposal
|
Concluded
|
26-Nov-2022
|
Details | ||||
267-051-0
|
67774-74-7
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||
267-051-0
|
67774-74-7
|
CCH
|
Targeted
|
Concluded
|
26-Nov-2022
|
Details | ||||