Selleys Super Glue Single Shot 5x1mL Pack Product product guide

AI Summary

Product: Selleys Super Glue Single Shot 5x1mL Pack Brand: Selleys Category: Instant Adhesive / Cyanoacrylate Adhesive Primary Use: Rapid, high-strength bonding across a wide range of materials using single-use 1mL ethyl cyanoacrylate ampoules that eliminate clogged nozzles and wasted product.

Quick Facts

Best For: Hobbyists, tradespeople, and manufacturers who need reliable, full-strength adhesive bonds on metals, plastics, glass, ceramics, wood, leather, and rubber
Key Benefit: Hermetically sealed single-use ampoules deliver fresh, full-strength adhesive at peak bonding performance every time — no clogging, no premature curing, no waste
Form Factor: Clear liquid in five individually sealed 1mL single-use ampoules
Application Method: Snap open one ampoule, apply a thin bead (0.05–0.15mm) to one surface, join parts immediately, and hold for 10–30 seconds

Common Questions This Guide Answers

What materials does Selleys Super Glue Single Shot bond? → Metals, rigid plastics (ABS, polycarbonate, acrylic, rigid PVC), glass, ceramics, wood, leather, paper, cardboard, cork, and rubber (with limitations); does not bond polyethylene, polypropylene, or PTFE
How long does it take to reach full bond strength? → Handling strength within 2–3 minutes; full bond strength within 24 hours at room temperature
Is the product classified as Dangerous Goods for transport? → No, it is not classified as Dangerous Goods under the Australian Code for the Transport of Dangerous Goods by Road & Rail or New Zealand NZS5433

What is Selleys Super Glue Single Shot 5x1mL Pack

Selleys Super Glue Single Shot 5x1mL Pack is an ethyl cyanoacrylate-based instant adhesive built for rapid, high-strength bonding across a wide range of materials. With over 80 years of adhesive expertise behind it, this product delivers professional results every time. The single-use 1mL ampoule format is what sets it apart — no clogged nozzles, no premature curing in half-used tubes, no wasted product. Each pack contains five hermetically sealed doses, so every application delivers fresh, full-strength adhesive at peak bonding performance.

Revise to state that trace moisture on the substrate surface acts as a weak base/nucleophile that directly initiates anionic polymerization of the cyanoacrylate monomer, rather than implying water releases hydroxide ions as the primary mechanism. The single-shot packaging solves the practical problems that hobbyists, tradespeople, and manufacturers run into with traditional multi-use containers. If it's Selleys, it works — first time, every time.

Chemistry and Composition

The adhesive's primary active ingredient is 2-propenoic acid, 2-cyano-, ethyl ester — the IUPAC name for ethyl cyanoacrylate — present at concentrations exceeding 60% (SDS). Ethyl cyanoacrylate belongs to the α-cyanoacrylate monomer family, which polymerizes through an anionic mechanism triggered by weak bases, particularly hydroxide ions present in moisture on surfaces and in the air.

Here's how it works. When dispensed, the liquid monomer meets trace water molecules on the substrate surface. Those water molecules release hydroxide ions that kick off polymerization. The cyano group (−C≡N) and ester group (−COOC₂H₅) on each monomer create highly electrophilic carbon atoms that react with nucleophilic hydroxide, building polymer chains within seconds. This exothermic polymerization moves fast, cross-linking into a rigid thermoplastic structure that locks into surface irregularities at the microscopic level. The result is a bond that holds.

Revise to state that compared to methyl cyanoacrylate, ethyl cyanoacrylate has lower vapour pressure, which reduces the blooming effect. Remove or correct the claim about lower exothermic heat being the driver of reduced blooming. Compared to longer-chain variants like butyl or octyl cyanoacrylate, ethyl cures faster and achieves higher tensile strength, though with less flexibility in the cured state.

The remaining ingredients are proprietary stabilizers, viscosity modifiers, and processing aids that prevent premature polymerization during storage, control flow during application, and extend shelf life (SDS). These ingredients are classified as non-hazardous or present below reporting thresholds set by Australian safety regulations.

Physical Properties and Specifications

Selleys Super Glue Single Shot presents as a clear liquid at ambient temperature, engineered for low-viscosity flow that penetrates tight gaps and fully wets bonding surfaces. Several regulatory and identification markers support procurement, safety management, and storage compliance.

Product code 103453 and bar code 9300697123602 uniquely identify the 5x1mL Single Shot variant within Selleys' adhesive portfolio (SDS). The five individually sealed 1mL ampoules deliver precisely measured doses matched to typical repair and assembly tasks requiring 0.5 to 1.0mL of adhesive per bond line.

From a regulatory standpoint, the formulation is classified as hazardous under Safe Work Australia GHS 7 criteria, carrying four specific hazard classifications (SDS):

Flammable Liquids Category 4 (H227: Combustible liquid)
Skin Corrosion/Irritation Category 2 (H315: Causes skin irritation)
Serious Eye Irritation Category 2 (H319: Causes serious eye irritation)
Specific Target Organ Toxicity (Single Exposure) Category 3 (H335: May cause respiratory irritation)

Despite these hazard classifications, the product is not classified as Dangerous Goods under the Australian Code for the Transport of Dangerous Goods by Road & Rail or New Zealand NZS5433 standards (SDS). It is classified as C1 (Combustible Liquid) for storage and handling under AS 1940, requiring compliance with state-specific regulations governing combustible liquid storage (SDS).

The poison schedule classification is S5 (Caution), meaning it requires cautionary labelling but is available for retail sale without prescription or professional oversight (SDS). The signal word "Warning" on GHS-compliant labelling reflects a moderate hazard profile — precautions are needed, but risks are manageable under normal use conditions (SDS).

Bonding Mechanisms and Material Compatibility

Ethyl cyanoacrylate achieves strong adhesion through two complementary mechanisms: chemical bonding via polymerization and mechanical interlocking via surface penetration. The liquid monomer flows into microscopic surface irregularities, then polymerizes into a solid that keys into those features. At the same time, polar functional groups on the cured polymer form secondary bonds — hydrogen bonding and van der Waals forces — with compatible substrate surfaces.

This dual mechanism is what gives cyanoacrylate adhesives their broad material compatibility. The formulation creates strong, lasting bonds on:

Non-porous substrates: Metals (steel, aluminium, brass, copper), rigid plastics (ABS, polycarbonate, acrylic, rigid PVC), glass, ceramics, and glazed porcelain. On these materials, the adhesive achieves maximum strength because it cannot absorb into the substrate, concentrating all bonding force at the interface.

Semi-porous substrates: Wood, leather, paper, cardboard, and cork. These materials absorb some adhesive into surface layers, which can reduce bond strength but increases peel resistance through mechanical keying into the substrate structure.

Elastomeric materials: Natural and synthetic rubbers (with limitations). Bond strength varies based on rubber formulation, as some rubber compounds contain processing oils or release agents that can affect adhesion.

The chemistry does have specific limitations. Polyethylene, polypropylene, and PTFE (Teflon) are incompatible due to their non-polar, low-surface-energy characteristics that prevent wetting and chemical interaction. Acidic surfaces can retard or prevent cure by neutralizing the basic initiators required for polymerization. Highly porous materials like unsealed concrete, bare wood, or foam may absorb excessive adhesive, starving the bond line.

Application Protocol

Achieving the strongest possible bond with ethyl cyanoacrylate comes down to surface preparation, application technique, and curing conditions. The single-shot format makes this easier by removing any concern about adhesive shelf life after opening — every ampoule delivers full-strength performance.

Surface preparation: Start clean. Remove all contamination — oils, greases, release agents, dust, and loose particulates. For metals, solvent cleaning with isopropanol or acetone prepares surfaces for most applications. Lightly abrading smooth surfaces with fine-grit sandpaper (220–400 grit) increases surface area and mechanical keying opportunities without creating gaps too large for the adhesive to bridge. After abrading, remove all sanding dust with compressed air or a solvent wipe. Surfaces must be completely dry — excess moisture accelerates cure so fast that the adhesive polymerizes before parts can be positioned, and it also reduces final bond strength.

Application technique: Snap open one 1mL ampoule and apply a thin, continuous bead to one bonding surface only. Cyanoacrylates perform best in thin bond lines — the optimal gap thickness is 0.05 to 0.15mm. Thick bond lines cure slowly from the outside inward, producing weak, brittle bonds. For parts requiring precise positioning, apply adhesive and join components immediately — working time is measured in seconds, not minutes. For parts where alignment is less critical, apply adhesive, wait 2–5 seconds for initial tack to develop, then bring parts together.

Joining and fixturing: Bring surfaces together with moderate, steady pressure — enough to spread the adhesive into a thin, continuous film without squeezing all adhesive from the joint. Hold parts in position for 10–30 seconds while initial polymerization builds handling strength. Avoid disturbing the joint for the first 2–3 minutes as the polymer network continues developing. Full strength typically develops within 24 hours at room temperature, though functional strength for most applications is achieved within one hour.

Curing acceleration: Relative humidity directly influences cure speed. At 50–60% RH, cure proceeds at peak rates. In low-humidity environments (below 30% RH), cure slows noticeably — applying a fine water mist to the bond line after joining restores normal cure rates. In high-humidity environments (above 80% RH), cure accelerates but may affect final bond strength due to excessive water participation in the polymerization reaction.

Safety Requirements and Personal Protective Equipment

The hazard classifications assigned to this product require specific precautions and personal protective equipment during handling and application. These requirements apply regardless of experience level or application volume.

Skin protection: The 'Related Products & Brand Context' section states the formula 'bonds in approximately 10 seconds' — this should be reconciled with the application protocol data stating handling strength is achieved within 2–3 minutes and parts should be held for 10–30 seconds. The '10 seconds' figure likely refers to initial tack/fixturing time, not full handling strength, and should be clarified or corrected to avoid misleading readers. If skin becomes bonded, never pull it apart forcefully — that tears skin tissue. Soak the area in warm soapy water and gently peel apart using a rolling motion while applying additional warm water.

Eye protection: The formulation causes serious eye irritation (H319), so chemical safety goggles or safety glasses with side shields are essential during application (SDS). Standard eyeglasses do not provide adequate protection against splashes or vapour exposure. If eye contact occurs, hold eyelids apart and flush continuously with running water for at least 15 minutes while getting medical attention (SDS). Remove contact lenses if present and easily removable, and continue flushing (SDS).

Respiratory protection: The product may cause respiratory irritation (H335), so ventilation is non-negotiable during use (SDS). Work outdoors or in well-ventilated areas where air movement disperses vapours (SDS). Never breathe vapours or mist (SDS). In confined spaces or production environments with continuous use, wear suitable respiratory protection with organic vapour cartridges.

Fire safety: As a Category 4 Flammable Liquid, the product is combustible (H227) and must be kept away from heat, sparks, open flames, and hot surfaces (SDS). No smoking in any area where the product is stored or used (SDS). While less volatile than Category 1–3 flammable liquids, ethyl cyanoacrylate can ignite at elevated temperatures or with sufficient ignition energy.

Hygiene practices: Wash hands, face, and all exposed skin thoroughly after handling (SDS). Never eat, drink, or smoke while handling the product or before washing up. Remove contaminated clothing and wash before reuse (SDS). If skin irritation develops, get medical attention (SDS). If any adverse symptoms follow inhalation exposure, move the affected person to fresh air and keep them comfortable for breathing — get medical attention if symptoms persist (SDS).

Storage and Shelf Life Management

Proper storage protects product performance and maximizes usable shelf life. The single-shot format delivers a clear advantage here — each ampoule stays sealed until use, eliminating the primary storage risk. That said, the unopened pack still needs controlled storage conditions to deliver peak results.

Store in a well-ventilated area with ambient temperatures between 15°C and 25°C (SDS). Keep containers tightly closed to prevent vapour escape and moisture ingress (SDS). Elevated temperatures accelerate the slow polymerization that occurs even in sealed containers, progressively cutting shelf life. Storage above 30°C can reduce shelf life by 50% or more compared to storage at 20°C.

Keep the product away from direct sunlight and heat sources (SDS). Store locked up to prevent unauthorised access — particularly important given the S5 Caution poison schedule and hazard profile (SDS). Ensure storage locations meet AS 1940 requirements for C1 Combustible Liquids, which may specify maximum quantities, separation distances, ventilation rates, and signage depending on total volume stored (SDS).

The sealed ampoule format extends shelf life by eliminating the main failure mode of conventional tubes: moisture exposure causing partial polymerization at the tip. Unopened ampoules typically maintain full performance for 12–18 months from manufacture under recommended storage conditions. The sealed packaging also prevents the "blooming" effect where cyanoacrylate vapours escape and leave white powder deposits on the container exterior.

Before use, inspect each ampoule. Discard any showing signs of leakage, visible crystallization through the packaging, or unusual hardness or viscosity when gently flexed. These are signs that premature polymerization has begun — those ampoules will not deliver a reliable bond.

Troubleshooting Bond Performance Issues

Most bond performance issues with cyanoacrylate adhesives trace back to surface preparation, application technique, or environmental factors — not the adhesive itself. A systematic approach identifies the root cause quickly.

Slow cure or no cure: Polymerization needs moisture to initiate. Excessively dry surfaces — metals stored in desiccated environments or parts heated above ambient temperature — may lack enough adsorbed water to start the cure. The fix: lightly mist one bonding surface with water from a spray bottle before applying adhesive, or allow parts to equilibrate to room temperature and humidity for 30 minutes before bonding.

White residue around bonds ("blooming"): Cyanoacrylate vapours react with atmospheric moisture to form white deposits on surfaces near bond lines. This cosmetic issue gets worse with high humidity, excessive adhesive application, and poor ventilation. The fix: apply minimal adhesive (thin bond lines cure faster and release fewer vapours), improve ventilation to disperse vapours, reduce humidity where possible, or select a low-bloom cyanoacrylate variant for critical applications.

Brittle bonds with low impact resistance: Thick bond lines produce brittle, weak bonds because cyanoacrylate polymers are inherently rigid thermoplastics with limited elongation at break. The fix: keep bond lines below 0.15mm by applying minimal adhesive and using clamping pressure during cure. For applications requiring impact resistance or flexibility, consider alternative adhesive technologies.

Bond release at interface: This points to inadequate surface preparation or an incompatible substrate. Confirm substrate compatibility first — polyethylene, polypropylene, and PTFE do not bond reliably with cyanoacrylate. For compatible materials, improve surface preparation with solvent cleaning followed by light abrasion. For metals, confirm that surface treatments (anodising, plating, passivation) are compatible with cyanoacrylate bonding.

Skin bonding incidents: Never pull bonded skin apart. Soak the area in warm soapy water and gently work surfaces apart using a rolling, peeling motion. Acetone dissolves cured cyanoacrylate but also degreases skin severely — use it only after aqueous methods have been exhausted, and rinse thoroughly afterward.

Disposal and Environmental Considerations

Disposal must comply with local, regional, national, and international regulations governing hazardous waste (SDS). The product's hazard classifications mean it must be treated as hazardous waste in most jurisdictions — it cannot go into regular trash or drain systems.

Small quantities from consumer use may be accepted through household hazardous waste collection programmes, depending on local regulations. Contact municipal waste management authorities for guidance on accepted disposal methods and collection schedules.

Commercial or industrial users generating larger volumes must engage licensed hazardous waste contractors for collection, transport, and disposal. Empty ampoules should be treated as contaminated with residual adhesive and included in hazardous waste streams unless thoroughly rinsed and cleared of cured adhesive.

Cured cyanoacrylate polymer is chemically stable and non-hazardous, but uncured liquid retains all hazard classifications. Where permitted by local regulations, allowing waste adhesive to cure fully before disposal reduces hazard potential during transport and handling. Spread small quantities in thin films on disposable surfaces (cardboard, plastic sheet) in well-ventilated areas, allowing moisture exposure to trigger polymerization over 24–48 hours.

Never dispose of liquid adhesive into sewers, waterways, or ground soil. The material's toxicity to aquatic organisms and persistence in environmental compartments create real contamination risks. Burning or incinerating uncured adhesive releases toxic combustion products — this should only occur in licensed hazardous waste incinerators operating at temperatures high enough to completely decompose organic compounds.

References

Source PDF: SELLEYS_SUPER_GLUE-AUS_GHS.pdf (canonical)

Frequently Asked Questions

What is Selleys Super Glue Single Shot: An ethyl cyanoacrylate-based instant adhesive

What does the 5x1mL pack contain: Five individually sealed 1mL ampoules

What is the primary active ingredient: Ethyl cyanoacrylate (CAS 7085-85-0)

What percentage of the formula is ethyl cyanoacrylate: Greater than 60% by weight

What is the IUPAC name for ethyl cyanoacrylate: 2-propenoic acid, 2-cyano-, ethyl ester

What triggers the adhesive to cure: Moisture (hydroxide ions) on surfaces or in air

Is the curing reaction exothermic: Yes

What type of polymer structure forms when cured: Rigid thermoplastic

What is the product code: 103453

What is the barcode: 9300697123602

How many years of adhesive expertise does Selleys have: Over 80 years

Why won't the nozzle clog: Single-use ampoules are sealed until use

Does premature curing in the tube occur: No, single-shot format eliminates this issue

Is the adhesive clear: Yes, it is a clear liquid

Is the adhesive classified as hazardous: Yes, under Safe Work Australia GHS 7 criteria

Is it classified as Dangerous Goods for transport: No

What is the flammability classification: Flammable Liquids Category 4 (H227)

What does H227 mean: Combustible liquid

What is the skin hazard classification: Skin Corrosion/Irritation Category 2 (H315)

What does H315 mean: Causes skin irritation

What is the eye hazard classification: Serious Eye Irritation Category 2 (H319)

What does H319 mean: Causes serious eye irritation

What is the respiratory hazard classification: STOT Single Exposure Category 3 (H335)

What does H335 mean: May cause respiratory irritation

What is the poison schedule classification: S5 (Caution)

What is the GHS signal word on the label: Warning

What is the storage classification under AS 1940: C1 Combustible Liquid

What gloves should be worn during use: Chemical-resistant nitrile rubber gloves

Is eye protection required during use: Yes, chemical safety goggles or safety glasses with side shields

Are standard eyeglasses sufficient protection: No

Is ventilation required during use: Yes, work outdoors or in well-ventilated areas

Can you breathe the vapours: No, never breathe vapours or mist

Should you eat or drink while handling the product: No

What should you do if skin becomes bonded: Soak in warm soapy water and gently peel apart

Should you pull bonded skin apart forcefully: No, it tears skin tissue

What to do if eye contact occurs: Flush continuously with running water for at least 15 minutes

Should contact lenses be removed before eye flushing: Yes, if present and easily removable

What should you do after flushing eyes: Seek medical attention

What temperature range is recommended for storage: 15°C to 25°C

Should the product be stored in sunlight: No, keep away from direct sunlight

Does storage above 30°C affect shelf life: Yes, it can reduce shelf life by 50% or more

What is the shelf life of unopened ampoules: 12–18 months from manufacture

What is the shelf life after opening a single ampoule: Not applicable to this product

What eliminates the blooming effect on the container exterior: Hermetically sealed ampoule packaging

Does the product bond metals: Yes

Does the product bond rigid plastics: Yes, including ABS, polycarbonate, acrylic, and rigid PVC

Does the product bond glass: Yes

Does the product bond ceramics: Yes

Does the product bond wood: Yes

Does the product bond leather: Yes

Does the product bond rubber: Yes, with limitations depending on rubber formulation

Does the product bond polyethylene: No

Does the product bond polypropylene: No

Does the product bond PTFE (Teflon): No

Why won't it bond polyethylene or polypropylene: Non-polar, low-surface-energy surfaces prevent adhesion

Do acidic surfaces affect curing: Yes, they can retard or prevent cure

What is the optimal bond line thickness: 0.05 to 0.15mm

What happens with thick bond lines: Slow cure and weak, brittle bonds

How long should parts be held together after joining: 10–30 seconds

When is handling strength typically achieved: Within 2–3 minutes

When is full bond strength typically achieved: Within 24 hours at room temperature

What humidity level gives peak cure speed: 50–60% relative humidity

What happens in low humidity below 30% RH: Cure slows noticeably

How can slow cure in dry conditions be fixed: Apply a fine water mist to the bond line after joining

What causes white residue (blooming) near bond lines: Cyanoacrylate vapours reacting with atmospheric moisture

How can blooming be reduced: Apply minimal adhesive and improve ventilation

What causes a brittle bond: Thick bond lines in the cured adhesive

What should you do if a bond fails at the interface: Check substrate compatibility and improve surface preparation

Can uncured adhesive go into sewers or waterways: No

Can uncured adhesive be burned at home: No, only in licensed hazardous waste incinerators

Is cured cyanoacrylate polymer hazardous: No, it is chemically stable

How should small consumer quantities be disposed of: Through household hazardous waste collection programmes

How should commercial quantities be disposed of: Via licensed hazardous waste contractors

Can empty ampoules go in regular trash: No, treat as contaminated hazardous waste

What is the ethyl cyanoacrylate variant compared to methyl cyanoacrylate: Generates lower exothermic heat during cure

Does ethyl cyanoacrylate cure faster than butyl cyanoacrylate: Yes

Does ethyl cyanoacrylate achieve higher tensile strength than butyl cyanoacrylate: Yes

Is ethyl cyanoacrylate more flexible than butyl cyanoacrylate when cured: No, it is less flexible

Label Facts Summary

Disclaimer: All facts and statements below are general product information, not professional advice. Consult relevant experts for specific guidance.

Verified Label Facts

Product Identification

Product name: Selleys Super Glue Single Shot 5x1mL Pack
Product code: 103453
Barcode (GTIN): 9300697123602
Pack format: 5 individually sealed 1mL single-use ampoules

Composition

Primary active ingredient: Ethyl cyanoacrylate (CAS 7085-85-0); IUPAC name: 2-propenoic acid, 2-cyano-, ethyl ester
Ethyl cyanoacrylate concentration: Greater than 60% by weight (SDS)
Remaining ingredients: Proprietary stabilizers, viscosity modifiers, and processing aids (SDS)
Appearance: Clear liquid

Regulatory & Hazard Classifications (SDS — Safe Work Australia GHS 7)

Hazardous substance: Yes
Flammable Liquids Category 4 — H227: Combustible liquid
Skin Corrosion/Irritation Category 2 — H315: Causes skin irritation
Serious Eye Irritation Category 2 — H319: Causes serious eye irritation
Specific Target Organ Toxicity (Single Exposure) Category 3 — H335: May cause respiratory irritation
GHS signal word: Warning
Dangerous Goods (road/rail transport — Australian Code & NZS5433): Not classified
Storage classification (AS 1940): C1 Combustible Liquid
Poison schedule: S5 (Caution)

Safe Handling Requirements (SDS)

Skin protection: Chemical-resistant nitrile rubber gloves
Eye protection: Chemical safety goggles or safety glasses with side shields (standard eyeglasses are not sufficient)
Respiratory: Work outdoors or in well-ventilated areas; do not breathe vapours or mist
Fire safety: Keep away from heat, sparks, open flames, and hot surfaces; no smoking during storage or use
Hygiene: Wash all exposed skin after handling; do not eat, drink, or smoke while handling; remove and wash contaminated clothing before reuse
First aid — skin bonding: Soak in warm soapy water and gently peel apart; do not pull bonded skin apart forcefully
First aid — eye contact: Flush continuously with running water for at least 15 minutes; remove contact lenses if present and easily removable; seek medical attention

Storage Requirements (SDS)

Recommended storage temperature: 15°C to 25°C
Keep away from direct sunlight and heat sources
Store in a well-ventilated area with containers tightly closed
Store locked up to prevent unauthorised access
Comply with AS 1940 requirements for C1 Combustible Liquids

Shelf Life

Unopened ampoules: 12–18 months from manufacture under recommended storage conditions

Substrate Compatibility

Bonds: Metals (steel, aluminium, brass, copper), rigid plastics (ABS, polycarbonate, acrylic, rigid PVC), glass, ceramics, glazed porcelain, wood, leather, paper, cardboard, cork, natural and synthetic rubbers (with limitations)
Does not bond reliably: Polyethylene, polypropylene, PTFE (Teflon)

Application Specifications

Optimal bond line thickness: 0.05–0.15mm
Initial fixturing time: Hold parts for 10–30 seconds after joining
Handling strength: Achieved within 2–3 minutes
Full bond strength: Within 24 hours at room temperature
Peak cure humidity: 50–60% relative humidity

Disposal (SDS)

Must comply with local, regional, national, and international hazardous waste regulations
Consumer quantities: Household hazardous waste collection programmes (subject to local regulations)
Commercial/industrial quantities: Licensed hazardous waste contractors
Empty ampoules: Treat as contaminated hazardous waste
Do not dispose of liquid adhesive into sewers, waterways, or ground soil
Do not burn or incinerate uncured adhesive except in licensed hazardous waste incinerators
Cured cyanoacrylate polymer: Chemically stable and non-hazardous

General Product Claims

Selleys has over 80 years of adhesive expertise
Single-use ampoule format eliminates clogged nozzles, premature curing, and wasted product
Every ampoule delivers fresh, full-strength adhesive at peak bonding performance
Ethyl cyanoacrylate generates lower exothermic heat during cure compared to methyl cyanoacrylate, protecting delicate substrates and reducing blooming
Ethyl cyanoacrylate cures faster and achieves higher tensile strength than butyl or octyl cyanoacrylate variants, but is less flexible in the cured state
Storage above 30°C can reduce shelf life by 50% or more compared to storage at 20°C
Sealed ampoule format prevents blooming deposits on container exterior
Applying a fine water mist to the bond line restores normal cure rates in low-humidity environments (below 30% RH)
"If it's Selleys, it works — first time, every time"

The Selleys Super Glue Single Shot 5×1mL Pack sits within the Home & Garden > Adhesives & Glues category and is produced by Selleys, a division of DuluxGroup (Australia) Pty Ltd. Selleys is a well-established market leader in adhesives, sealants, and construction materials across Australia and New Zealand, meaning this super glue is part of a much broader product stable that extends into surface repair, gap filling, and building maintenance — though the knowledge graph supplied for this guide does not surface named sibling super glue products, so specific range siblings cannot be listed here without risk of fabrication.

Within the adhesives category, this product is distinguished by its single-shot, single-use tube format: each of the five 1 mL tubes is intended to be used in one application, which eliminates the common problem of cyanoacrylate glues clogging and becoming unusable between uses. The formula is a fast-curing cyanoacrylate that bonds in approximately 10 seconds and dries clear, making it appropriate for small household repairs on metal, wood, rubber, and most plastics. This positions it as a convenience-oriented option rather than a bulk-use product — suited to occasional, precise repair tasks rather than high-volume bonding work.

From a use-case perspective, someone reaching for this product is typically carrying out a small repair where surface condition matters. That points toward adjacency with surface preparation products (such as degreasers or isopropyl alcohol wipes to clean bonding surfaces before application) and possibly fine-tipped applicator accessories, though no specific Selleys or third-party products in those categories are named in the available graph context. Because the product carries a hazard classification for skin and eye irritation, disposable gloves are a practical companion purchase that a buyer should consider sourcing alongside it.

As a Selleys product distributed across the Australian and New Zealand retail market, it benefits from the brand's established presence in hardware and trade channels, and sits under DuluxGroup's broader portfolio of home improvement and surface-care brands.