A Pontuação deste Site é

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Top das Tecnologias

jQuery
Javascript Frameworks
Google Font API
Font Scripts
PHP
Programming Languages
Gzip
Compress
Apache
Web Servers
WordPress
CMS
Nginx
Web Servers
Google Analytics
Analytics
Font Awesome
Font Scripts
Twitter Bootstrap
Web Frameworks

29 kimiplan.pt Última Análise: 6 horas

Sucesso 70% passos de análise realizados
Aviso 7% total de avisos
Erros 23% de erros detetados. Estes erros exigem ação rápida
Partilhar esta Análise

Desktop

Móvel

Performance Desktop Score 99%
Best Practices Desktop Score 80%
SEO Desktop Score 82%
Progressive Web App Desktop Score 36%
Performance Mobile Score 49%
Best Practices Mobile Score 80%
SEO Mobile Score 81%
Progressive Web App Mobile Score 33%
Autoridade da Página Autoridade 7%
Autoridade do Domínio Autoridade do Domínio 8%
Moz Rank 0.7/10
Taxas de Rejeição Taxa 0%
Charset Encoding
Excelente, a codificação de idioma / carateres é especificada: UTF-8
Tag Título 12 Carateres
KIMIPLAN LDA
Descrição Meta 84 Carateres
Fornecedor produtos limpeza, piscina, automóvel e limpeza urbana em Portugal e Spain
URL Efetivo 23 Carateres
https://www.kimiplan.pt
Excerto Conteúdo da página
Kimiplan Lda Alisveris Sepeti Meu Carrinho Ainda não adicionou produtos. ...
Núvem de Keywords Densidade
para5 carro4 auto3 minha3 kimiplan3 conta3 hidrofóbico2 revestimento2 desinfectante2 detergente2
Consistência das Keyword A densidade de palavras-chave é um dos principais termos em SEO
Keyword Freq. Título Descrição Domínio H1 H2
para 5
carro 4
auto 3
minha 3
kimiplan 3
conta 3
hidrofóbico 2
revestimento 2
desinfectante 2
detergente 2
Pré-visualização do Google O seu site aparece assim no resultado de pesquisa do Google
KIMIPLAN LDA
https://www.kimiplan.pt
Fornecedor produtos limpeza, piscina, automóvel e limpeza urbana em Portugal e Spain
Robots.txt Ficheiro detetado
http://kimiplan.pt/robots.txt
Sitemap.xml Ficheiro detetado
http://kimiplan.pt/sitemap.xml
Whois Is a query and response protocol that is widely used for querying databases that store the registered users or assignees of an Internet resource, such as a domain name, an IP address block, or an autonomous system
Atualizado em: 1970-01-01 / 51 anos
Criado em: 1970-01-01 / 51 anos
Expira em: 2020-12-02 / 4 meses 11 dias

Nameservers
ns2.3-in.net
|
IPv4:
and
IPv6:
ns1.3-in.net
|
IPv4:
and
IPv6:
Tamanho da Página Código & Ratio do Texto
Tamanho do Documento: ~14.92 KB
Tamanho do Código: ~10.55 KB
Tamanho do Texto: ~4.37 KB Ratio: 29.27%

Redes Sociais

Tecnologias Aplicadas

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PWA - Manifest

O Manifesto do aplicativo web não é válido
O seu site não tem um ficheiro manifest.json válido, leia mais em Web App Manifesto

Desktop

Screenshot do Desktop
Includes front-end JavaScript libraries with known security vulnerabilities 9 vulnerabilities detected
Some third-party scripts may contain known security vulnerabilities that are easily identified and exploited by attackers
Avoid large layout shifts 5 elements found
These DOM elements contribute most to the CLS of the page.
Largest Contentful Paint element 1 element found
This is the largest contentful element painted within the viewport
Cumulative Layout Shift 0.043
Cumulative Layout Shift measures the movement of visible elements within the viewport
Minimize third-party usage Third-party code blocked the main thread for 0 ms
Third-party code can significantly impact load performance. Limit the number of redundant third-party providers and try to load third-party code after your page has primarily finished loading
Avoid serving legacy JavaScript to modern browsers Potential savings of 12 KiB
Polyfills and transforms enable legacy browsers to use new JavaScript features. However, many aren't necessary for modern browsers. For your bundled JavaScript, adopt a modern script deployment strategy using module/nomodule feature detection to reduce the amount of code shipped to modern browsers, while retaining support for legacy browsers
First Contentful Paint 0.6 s
First Contentful Paint marks the time at which the first text or image is painted
Eliminate render-blocking resources Potential savings of 330 ms
Resources are blocking the first paint of your page. Consider delivering critical JS/CSS inline and deferring all non-critical JS/styles
Avoid chaining critical requests 13 chains found
The Critical Request Chains below show you what resources are loaded with a high priority. Consider reducing the length of chains, reducing the download size of resources, or deferring the download of unnecessary resources to improve page load
Time to Interactive 0.6 s
Time to interactive is the amount of time it takes for the page to become fully interactive
Network Round Trip Times 0 ms
Network round trip times (RTT) have a large impact on performance. If the RTT to an origin is high, it's an indication that servers closer to the user could improve performance
Serve static assets with an efficient cache policy 34 resources found
A long cache lifetime can speed up repeat visits to your page
Max Potential First Input Delay 30 ms
The maximum potential First Input Delay that your users could experience is the duration of the longest task
Web app manifest or service worker do not meet the installability requirements 1 reason
Service worker is the technology that enables your app to use many Progressive Web App features, such as offline, add to homescreen, and push notifications. With proper service worker and manifest implementations, browsers can proactively prompt users to add your app to their homescreen, which can lead to higher engagement
First Meaningful Paint 0.6 s
First Meaningful Paint measures when the primary content of a page is visible
Speed Index 0.8 s
Speed Index shows how quickly the contents of a page are visibly populated
Estimated Input Latency 10 ms
Estimated Input Latency is an estimate of how long your app takes to respond to user input, in milliseconds, during the busiest 5s window of page load. If your latency is higher than 50 ms, users may perceive your app as laggy
Serve images in next-gen formats Potential savings of 35 KiB
Image formats like JPEG 2000, JPEG XR, and WebP often provide better compression than PNG or JPEG, which means faster downloads and less data consumption
JavaScript execution time 0.1 s
Consider reducing the time spent parsing, compiling, and executing JS. You may find delivering smaller JS payloads helps with this
Avoids an excessive DOM size 188 elements
A large DOM will increase memory usage, cause longer [style calculations](https://developers.google.com/web/fundamentals/performance/rendering/reduce-the-scope-and-complexity-of-style-calculations), and produce costly [layout reflows](https://developers.google.com/speed/articles/reflow)
Remove unused JavaScript Potential savings of 175 KiB
Remove unused JavaScript to reduce bytes consumed by network activity
Avoids enormous network payloads Total size was 564 KiB
Large network payloads cost users real money and are highly correlated with long load times
Minimizes main-thread work 0.4 s
Consider reducing the time spent parsing, compiling and executing JS. You may find delivering smaller JS payloads helps with this
First CPU Idle 0.6 s
First CPU Idle marks the first time at which the page's main thread is quiet enough to handle input. [Learn more](https://web.dev/first-cpu-idle/).
Largest Contentful Paint 0.9 s
Largest Contentful Paint marks the time at which the largest text or image is painted
Keep request counts low and transfer sizes small 51 requests • 564 KiB
To set budgets for the quantity and size of page resources, add a budget.json file
Server Backend Latencies 0 ms
Server latencies can impact web performance. If the server latency of an origin is high, it's an indication the server is overloaded or has poor backend performance
Initial server response time was short Root document took 200 ms
Keep the server response time for the main document short because all other requests depend on it
Total Blocking Time 0 ms
Sum of all time periods between FCP and Time to Interactive, when task length exceeded 50ms, expressed in milliseconds

Móvel

Screenshot Móvel
Cumulative Layout Shift 0.037
Cumulative Layout Shift measures the movement of visible elements within the viewport
Avoids an excessive DOM size 203 elements
A large DOM will increase memory usage, cause longer [style calculations](https://developers.google.com/web/fundamentals/performance/rendering/reduce-the-scope-and-complexity-of-style-calculations), and produce costly [layout reflows](https://developers.google.com/speed/articles/reflow)
Web app manifest or service worker do not meet the installability requirements 1 reason
Service worker is the technology that enables your app to use many Progressive Web App features, such as offline, add to homescreen, and push notifications. With proper service worker and manifest implementations, browsers can proactively prompt users to add your app to their homescreen, which can lead to higher engagement
Speed Index 3.6 s
Speed Index shows how quickly the contents of a page are visibly populated
Total Blocking Time 2,220 ms
Sum of all time periods between FCP and Time to Interactive, when task length exceeded 50ms, expressed in milliseconds
Remove unused JavaScript Potential savings of 175 KiB
Remove unused JavaScript to reduce bytes consumed by network activity
First CPU Idle 6.1 s
First CPU Idle marks the first time at which the page's main thread is quiet enough to handle input. [Learn more](https://web.dev/first-cpu-idle/).
Eliminate render-blocking resources Potential savings of 1,640 ms
Resources are blocking the first paint of your page. Consider delivering critical JS/CSS inline and deferring all non-critical JS/styles
Avoid large layout shifts 5 elements found
These DOM elements contribute most to the CLS of the page.
Avoids enormous network payloads Total size was 488 KiB
Large network payloads cost users real money and are highly correlated with long load times
Avoid serving legacy JavaScript to modern browsers Potential savings of 12 KiB
Polyfills and transforms enable legacy browsers to use new JavaScript features. However, many aren't necessary for modern browsers. For your bundled JavaScript, adopt a modern script deployment strategy using module/nomodule feature detection to reduce the amount of code shipped to modern browsers, while retaining support for legacy browsers
Minimize main-thread work 5.4 s
Consider reducing the time spent parsing, compiling and executing JS. You may find delivering smaller JS payloads helps with this
Network Round Trip Times 0 ms
Network round trip times (RTT) have a large impact on performance. If the RTT to an origin is high, it's an indication that servers closer to the user could improve performance
Tap targets are not sized appropriately 60% appropriately sized tap targets
Interactive elements like buttons and links should be large enough (48x48px), and have enough space around them, to be easy enough to tap without overlapping onto other elements
Defer offscreen images Potential savings of 81 KiB
Consider lazy-loading offscreen and hidden images after all critical resources have finished loading to lower time to interactive
Time to Interactive 6.3 s
Time to interactive is the amount of time it takes for the page to become fully interactive
Includes front-end JavaScript libraries with known security vulnerabilities 9 vulnerabilities detected
Some third-party scripts may contain known security vulnerabilities that are easily identified and exploited by attackers
Serve static assets with an efficient cache policy 31 resources found
A long cache lifetime can speed up repeat visits to your page
Keep request counts low and transfer sizes small 45 requests • 488 KiB
To set budgets for the quantity and size of page resources, add a budget.json file
Avoid chaining critical requests 13 chains found
The Critical Request Chains below show you what resources are loaded with a high priority. Consider reducing the length of chains, reducing the download size of resources, or deferring the download of unnecessary resources to improve page load
Avoid long main-thread tasks 14 long tasks found
Lists the longest tasks on the main thread, useful for identifying worst contributors to input delay
First Contentful Paint 2.7 s
First Contentful Paint marks the time at which the first text or image is painted
Reduce JavaScript execution time 3.7 s
Consider reducing the time spent parsing, compiling, and executing JS. You may find delivering smaller JS payloads helps with this
Server Backend Latencies 0 ms
Server latencies can impact web performance. If the server latency of an origin is high, it's an indication the server is overloaded or has poor backend performance
First Contentful Paint (3G) 4624 ms
First Contentful Paint 3G marks the time at which the first text or image is painted while on a 3G network
Initial server response time was short Root document took 350 ms
Keep the server response time for the main document short because all other requests depend on it
Largest Contentful Paint 4.6 s
Largest Contentful Paint marks the time at which the largest text or image is painted
Estimated Input Latency 400 ms
Estimated Input Latency is an estimate of how long your app takes to respond to user input, in milliseconds, during the busiest 5s window of page load. If your latency is higher than 50 ms, users may perceive your app as laggy
Serve images in next-gen formats Potential savings of 35 KiB
Image formats like JPEG 2000, JPEG XR, and WebP often provide better compression than PNG or JPEG, which means faster downloads and less data consumption
First Meaningful Paint 2.7 s
First Meaningful Paint measures when the primary content of a page is visible
Largest Contentful Paint element 1 element found
This is the largest contentful element painted within the viewport
Max Potential First Input Delay 740 ms
The maximum potential First Input Delay that your users could experience is the duration of the longest task
Reduce the impact of third-party code Third-party code blocked the main thread for 1,320 ms
Third-party code can significantly impact load performance. Limit the number of redundant third-party providers and try to load third-party code after your page has primarily finished loading
Document uses legible font sizes 100% legible text
Font sizes less than 12px are too small to be legible and require mobile visitors to “pinch to zoom” in order to read. Strive to have >60% of page text ≥12px

Dicas de Otimização e Velocidade

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Ranking Alexa

99,999,999

Ranking Global

99,999,999

-
Tráfego
Busca

Domínio Disponível

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Informações do Servidor

Resposta do Header Os cabeçalhos HTTP carregam informações sobre o navegador do cliente, a página solicitada e o servidor 
HTTP/2 200 
date: Mon, 12 Apr 2021 23:04:54 GMT
server: Apache/2
x-powered-by: PHP/5.4.45
expires: Thu, 19 Nov 1981 08:52:00 GMT
cache-control: no-store, no-cache, must-revalidate, post-check=0, pre-check=0
pragma: no-cache
set-cookie: PHPSESSID=26tpdkb36v2mhnpltasjikqde1; path=/
set-cookie: language=pt; expires=Wed, 12-May-2021 23:04:54 GMT; path=/; domain=www.kimiplan.pt
set-cookie: currency=EUR; expires=Wed, 12-May-2021 23:04:54 GMT; path=/; domain=www.kimiplan.pt
vary: User-Agent
content-type: text/html; charset=utf-8
Registos DNS Registros de recursos DNS associados a um nome de host
Clique aqui para listar os Registos DNS
Tipo Nome Valor Class TTL
A kimiplan.pt 209.42.193.75 IN 3596
NS kimiplan.pt ns1.3-in.net IN 3600
NS kimiplan.pt ns2.3-in.net IN 3600
MX kimiplan.pt aspmx.l.google.com IN 3600
MX kimiplan.pt aspmx5.googlemail.com IN 3600
MX kimiplan.pt aspmx3.googlemail.com IN 3600
MX kimiplan.pt alt2.aspmx.l.google.com IN 3600
MX kimiplan.pt alt1.aspmx.l.google.com IN 3600
MX kimiplan.pt aspmx4.googlemail.com IN 3600
MX kimiplan.pt aspmx2.googlemail.com IN 3600
TXT kimiplan.pt google-site-verification=ZoUL4FBkfIoUnVvZf4RLZd_yIvQaYVNc-js1ttCglrw IN 3600
TXT kimiplan.pt v=spf1 a mx ip4:209.42.193.75 ~all IN 3600

Comentários

O que é SEO? (Search Engine Optimization)

SEO é o conjunto de estratégias com o objetivo de potencializar e melhorar o posicionamento de um site nas páginas de resultados naturais (orgânicos) nos sites de busca.

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