If you’re qualifying a high-performance yellow for coatings, plastics, or printing inks, Pigment Yellow 110 usually isn’t evaluated on “shade” alone. Procurement and R&D/QC teams need confidence that the pigment will hold up in your system, run consistently across batches, and come with the documentation required for audits and change control.

This overview focuses on Pigment Yellow 110 / HP Yellow 1315 and the practical questions buyers ask when they’re close to supplier selection.

What Pigment Yellow 110 / HP Yellow 1315 is (and where it fits)

Honor Pigments positions a greenish-shade Pigment Yellow 110 grade as a widely used option across high-grade paints, plastics, and printing inks. For the official product positioning and application scope, see Honor Pigments’ HP Yellow 1315 (Pigment Yellow 110).

From a buyer perspective, Pigment Yellow 110 typically comes up when you need:

• A yellow that can be qualified for demanding end-use conditions (light, weather, heat)

• A grade that behaves predictably in dispersion and processing

• Supplier support for documentation, sampling, and batch consistency

Recommended applications (organic yellow pigment for coatings, plastics, and printing inks)

A supplier’s “recommended applications” list is useful because it tells you where the grade has likely been evaluated before. For HP Yellow 1315, the published recommendation covers three primary buckets.

Coatings

Use-case fit is typically validated against your binder, solvent/water system, and cure conditions. HP Yellow 1315 is listed for coatings applications including industrial coatings, powder coatings, coil coatings, auto paints, and wood coatings (see the full list on the product page).

Kunststoffen

In plastics, qualification usually centers on heat history, migration/bleed risk, and how well the color holds after processing. HP Yellow 1315 is positioned for use across common resins such as PP, PE, PVC, PS/SAN, ABS, PC, PET, PBT, PMMA, and additional polymer families (full list on the product page).

Printing inks

Ink systems tend to expose dispersion and rheology issues quickly, especially when you’re working across multiple vehicles or need repeatable drawdown results. HP Yellow 1315 is listed for offset inks, solvent-based inks, and water-based inks (reference: the same product page).

The performance profile buyers typically qualify (without guessing numbers)

Even when a supplier states “excellent fastness” or “high heat stability,” the decision-stage question is: excellent under which method, in which system, at what acceptance threshold?

A practical evaluation framework should cover these dimensions.

Fastness under relevant exposure (light and weather)

For exterior coatings and light-critical plastics, fastness is often the first gate. Your team will typically define acceptance around real exposure conditions or accelerated weathering protocols that make sense for your market and warranty expectations.

Heat stability in your processing window

For plastics and baked coatings, heat stability isn’t an abstract property—it’s your process temperature, residence time, and any downstream heat history. The right test is the one that reproduces your worst-case processing conditions and checks for shade shift and strength loss.

Migration / bleed resistance (where contact risk exists)

If you have multi-layer structures, overprint varnishes, soft-touch coatings, or polymer contacts, migration/bleed risk can become a qualification blocker. This is also where “anti-bleeding” language should be treated as a starting hypothesis, not a conclusion.

Dispersion behavior and formulation impact

Dispersion quality affects gloss, transparency/opacity behavior, and stability in storage and processing. In coatings and inks, this also shows up as viscosity/flow changes and poor reproducibility between production batches.

Pro Tip: In decision-stage qualification, run at least one test that intentionally stresses dispersion (different dispersant, different grind energy, or different let-down ratio). If the pigment “only works” in one narrow setup, you’ll feel it later in scale-up.

Batch-to-batch color consistency

For procurement teams managing dual-sourcing and AVLs, consistency is a total cost issue. If your QC process depends on tight ΔE control, you’ll want to verify how color is measured, how traceability works, and what happens when there’s an out-of-trend batch.

For a general overview of how organic pigments are evaluated in coatings contexts, reference PCI Magazine’s evaluation approach for organic color pigments.

Pigment quality control (ISO 9001) and consistency signals to verify

If you’re qualifying Pigment Yellow 110 for production use, the supplier’s QA posture matters as much as the pigment’s nominal properties.

Honor Pigments highlights ISO 9001 certification and outlines a testing and QC setup, including instruments used for consistency checks (see Honor Pigments’ pigment quality control (ISO 9001) approach).

For decision-stage evaluation, you typically want to confirm:

• Whether the supplier can provide lot-level COA and traceability

• The test methods used for color consistency and key properties (at least at a high level)

• How nonconforming lots are handled (retest, replacement, disposition process)

• How changes are communicated (raw material changes, process shifts, new sites)

Documentation and compliance package (keep it general)

If your procurement model involves audits or regulated end markets, documentation speed becomes part of supplier performance.

At minimum, decision-stage buyers typically request:

• TDS (technical data sheet) for the grade and recommended applications

• SDS (safety data sheet) for handling, transport, and internal EHS requirements

• COA (certificate of analysis) for the specific lot(s) you’re sampling or buying

Because compliance requirements vary by region and end use, it’s usually best to validate the documentation set against your internal checklist and the markets you ship to.

Documentation request path: Start from the product listing for Pigment Yellow 110 / HP Yellow 1315 and request the TDS/SDS/COA packet along with the intended application (coatings, plastics, or inks) so the supplier can match the right test context.

A pigment qualification checklist (what to test and how to compare)

A clean way to reduce qualification time is to run Pigment Yellow 110 against a single, agreed reference and document the acceptance criteria before the first drawdown or molding trial.

Here’s a workflow most procurement + QC teams recognize:

1. Define the application system (resin/binder, solvent/water, cure/processing window, and any exposure requirements).

2. Select a reference pigment (your current approved grade or an internal standard).

3. Run side-by-side trials with the same dispersion and let-down method.

4. Stress the conditions that usually create failures: heat history, overprint/varnish contact, outdoor exposure proxies, or migration contact.

5. Lock documentation: keep a lot-level COA on file for the sample lot(s) and record any deviations.

⚠️ Warning: The biggest cost in pigment switching is rarely the unit price. It’s the rework, scrap risk, and delay when the qualification plan doesn’t match real processing and exposure conditions.

Next steps for supplier selection

If you’re close to supplier selection for Pigment Yellow 110 / HP Yellow 1315, the fastest path is to align sampling + documentation with your real application.

• Request a lab sample for your system trials

• Request TDS / SDS / lot-specific COA for the material you test

• Ask for pricing, MOQ, packaging, and lead time for your destination market

To start the process, contact Erepigmenten with your application details (coatings, plastics, or inks) and your internal qualification checklist.